About us For notes
Lugansk plant of pipeline fittings JSC “LSE AF & SS “Specavtomatika” is one of the leading manufacturers of pipeline valves in Eastern Europe countries. Products manufactured by the plant under trade mark trade mark “MARSHAL” are used in the heat and water supplying systems, gas distribution systems; extraction, refining and storage of oil and gas in diverse industry areas. “Marshal” ball valves are notable for for their reliability, simplicity of operation, safety and lifetime. Providing partners with the high quality products is the priority of enterprise activities, which is reached by way of constant implementation of innovation technologies in the production, expanding of existing production capacity and development of pipeline fittings projecting. Special attention is given to the enterprise Quality Management System: interconnection of all enterprise departments in projecting, design, production and promotion of products enable taking into account to the maximal extent the needs of companies applying the pipeline valves when installing and servicing of pipeline systems. Quality control on every stage of production – from design to the delivery of finished products to the stock – is performed in strict compliance with the international Quality System ISO 9001:2000 and requirements of GOST (National Standard), CE and API that makes it possible to provide the quality warranties to partners in different countries of the world. The plant began the history of ball valves design and manufacturing in 1992. Since 1997 the products of plant have been represented in Russia by Trading House “Marshal”, located in Moscow. Currently JSC “LSE AF & SS “Specavtomatika” manufactures the following product range: — — — — — — — — —
sectional ball valves; all-welded ball valves; short pattern flanged ball valves (shortened face-to-face dimension); threaded end ball valves; ball valves with an extended stem; ball valves for application under high pressure for oil and gas working medium; stainless steel ball valves; cast iron and steel gauze filters; connection flanges and fasteners.
“MARSHAL” ball valves are produced for application under pressure PN 1.6; 2.5; 4.0; 10.0 MPa with bore diameters from DN 10 to DN 500 inclusive. Today “MARSHAL” ball valves are widely used in Russia, Ukraine, Belarus, Kazakhstan, Moldova, Lithuania, Latvia, Estonia, Bulgaria, Azerbaijan, Georgia. Ball valves have been supplied to the biggest companies: “Rosneft”, “GazpromRegiongaz”, “OMZ” (Uralmash-Izhora Group), “Power Machines Company”, “TverGazStroy”, “KazMunayGas”, “BolgarGaz”, “Kyivmiskbud”, “Poznyakizhilstroy”, “Alchevsk Iron & Steel Works”, “NaftoGaz of Ukraine” etc. In 2009 there was manufactured an anniversary ball valve which pointed the line of 1000000 items manufactured by the plant for the whole time of its working on the pipeline fittings market. A continuous expansion of products range complying with the customers’ requirements providing high quality rates along with reliability and safety values is one of the strategic purposes of the enterprise. It should be noted that thanks to the coordinated work of professional team on all the stages of production and distribution of products, we are ready to propose to the clients the shortest possible terms of their orders fulfillment as well as technical consulting by engineers on subject of application and conditions of our product maintenance.
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87
Sertificates
3
Contents 1 Class 150, class 300 split body MSA 01.c ball valve 1.1 Full bore 1.1.1 Flanged ends design ................................................................................................................. 6 1.1.2 Welding ends design................................................................................................................ 10 1.2 Reduced bore 1.2.1 Flanged ends design................................................................................................................ 14 1.2.2 Welding ends design ............................................................................................................... 18 2 Class 150, class 300 split body MSA 02.c ball valve for steam applications etc. 2.1 Full bore 2.1.1 Flanged ends design................................................................................................................ 22 2.1.2 Welding ends design................................................................................................................ 24 2.2 Reduced bore 2.2.1 Flanged ends design................................................................................................................ 26 2.2.2 Welding ends design................................................................................................................ 28 3. Class 150, class 300 short pattern split body MSA 05.c ball valve with flanged ends design 3.1 Full bore ....................................................................................................................................30 3.2 Reduced bore ............................................................................................................................32 4 Class 150, class 300 single body all-welded MSA 21.c, MSA 21.s ball valve 4.1 Full bore 4.1.1 Flanged ends ...........................................................................................................................34 4.1.2 Welding ends ...........................................................................................................................36 4.2 Reduced bore 4.2.1 Flanged ends ...........................................................................................................................38 4.2.2 Welding ends ...........................................................................................................................40 4.3 Full & Reduced bore 4.3.1 Flanged ends ..........................................................................................................................42 4.3.2 Welding ends ..........................................................................................................................44 5. Class 150, class 300 lihgtweight single body all-welded MSA 22.c, MSA 22.s ball valve with welding ends design 5.1 Reduced bore ...........................................................................................................................46 5. Class 150, class 300 single body all-welded with extended stem for gas applications MSA 23.c ball valve with welding ends design and highly enhanced insulation type 5.1 Full bore & Reduced bore.........................................................................................................48 6 Class 150, class 300 single body all-welded with extended stem MSA 24.c ball valve for channel-free mounting in polyurethane foam 6.1 Full bore 6.1.1 Flanged ends ...........................................................................................................................50 6.1.2 Welding ends ...........................................................................................................................52 6.2 Reduced bore 6.2.2 Welding ends ...........................................................................................................................54 7. Class 400, class 600 split body MSA 15.c ball valve 7.1 Full bore 7.1.1 Flanged ends ......................................................................................................................56, 60 7.1.2 Welding ends ......................................................................................................................58, 62 8 Class 150, class 300 split body MSA11.s cast ball valve made of stainless steel with flanged ends design 8.1 Full bore ....................................................................................................................................64 9 Class 150, class 300 single body all-welded MSA 21.c.4.1, MSA 21.s.4.1 ball valve with threaded ends design 9.1 Full bore & Reduced bore..........................................................................................................66 10 Class 400, class 600 split body MSA 15.c.4.1 ball valve with threaded ends design 10.1 Full bore ....................................................................................................................................68 11 Class 150 single body polymeric MSA 55.p, MSA 56.p, MSA 57.p ball valve with welding ends design 11.1 Full bore ....................................................................................................................................70 12 Class 150 butterfly valves 12.1 Full bore ....................................................................................................................................72 13 Class150, Class300 flanged gauze filter MSA 60.c, MSA 60.i with cast body.....................74 14 Flange MSA90.c, MSA90.s with smooth raised face..............................................................76 15 Stud MSA95.c, MSA95.s with threaded ends.........................................................................81 16 Blind flange MSA91.c, MSA91.s with smooth raised face ...................................................82
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We reserve the right to make modification without prior notice.
How to order For the right ordering of a product you require, please note an appropriate product designation structure shown below which we use as a description of our manufactured devices. The designation structure is as follows:
MSA XX. x. X . X. XXX. XXX DN nominal bore ANSI nominal pressure class
Type of control Type of pipeline connection Body material Series Series: 01 — Split body welded ball valve. 02 — Split body ball valve with welded body for steam TS from 482ºF. 05 — Split body short pattern welded ball valve. 11 — Split body ball valve with combined multiply part body. 21 — Single body all-welded ball valve. 22 — Single body lightweight all-welded ball valve. 23 — Single body all-welded ball valve with extended heavier duty insulation stem. 24— Single body all-welded ball valve in polyurethane foam insulation for trenchless laying. 55 — Single body polypropylene ball valve. 56 — Single body polyethylene ball valve. 57 — Single body PVC ball valve. 60 — Gauze filter. 90 — Flange. 91 — Blind flange. 95 — Stud. Body material: c— Carbon steel s — Stainless steel i— Cast iron p — Polymer Type of pipeline connection: 1— Flanged end 2— Welding end 3— Wafer-type 4— Threaded end Type of control: 1— Handle 2— Gear actuator 3— Pneumatic actuator 4— Hydraulic actuator
5
Ball valves
Full bore
MSA 01.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than.............................20 bar (Class150), 50 bar (Class300) Working medium temperature....................................from -20°F (-29°C) to +356°F (+180°C) Working medium........................................................water, gas, oil products and other medium, neutral for ball valve components Environment temperature..........................................not less than - 20°F (- 29°C) Quantity of work cycles..............................................not less than 5000 Full lifetime.................................................................not less than 30 years Pipeline connection....................................................flanged ends Control means............................................................handle Face-to-face dimension.............................................according to ASME B16.10 Flanges connection....................................................according to ASME B16.5 Pressure/ temperature rating....................................according to ASME/ANSI B16.34 Testing and inspection...............................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
6
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260 ASTM A516 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code MSA 01.с.1.1.150.015 MSA 01.с.1.1.150.020 MSA 01.с.1.1.150.025 MSA 01.с.1.1.150.032 MSA 01.с.1.1.150.040 MSA 01.с.1.1.150.050 MSA 01.с.1.1.150.065 MSA 01.с.1.1.150.080 MSA 01.с.1.1.150.100 MSA 01.с.1.1.150.150 MSA 01.с.1.1.150.200
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
½ 15 ¾ 20 1 25 1¼ 32 1½ 40 2 50 2½ 65 3 80 4 100 6 150 8 200
4,25 108 4,62 117 5 127 5,5 140 6,5 165 7 178 7,5 190 8 203 9 229 15,5 394 18 457
3,5 90 3,88 100 4,25 110 4,62 115 5 125 6 150 7 180 7,5 190 9 230 11 280 13,5 345
2,38 60,3 2,75 69,9 3,12 79,4 3,5 88,9 3,88 98,4 4,75 120,7 5,5 139,7 6 152,4 7,5 190,5 9,5 241,3 11,75 298,5
1,38 34,9 1,69 42,9 2 50,8 2,5 63,5 2,88 73 3,62 92,1 4,12 104,8 5 127 6,19 157,2 8,5 215,9 10,62 269,9
7,5 190 7,5 190 7,5 190 7,5 190 11,1 282 12,2 311 12,2 311 15 382 23,7 602 23,7 602 43,6 1108
8,6 218 8,65 220 8,7 221 8,9 226 12,7 322 14,2 360 14,4 365 17,7 450 27 687 27,9 708 48,8 1240
3,8 97 3,94 100 4,17 106 4,7 120 5,6 142 6,2 158 6,5 166 6,6 168 7,3 185 9 230 9,5 243
0,51 13 0,75 19 0,99 25 1,26 32 1,5 38 1,93 49 2,44 62 2,92 74 3,95 100 5,9 150 7,9 201
5/8 15,9 5/8 15.9 5/8 15,9 5/8 15,9 5/8 15,9 3/4 19 3/4 19 3/4 19 3/4 19 7/8 22,2 7/8 22,2
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
½ 15 ¾ 20 1 25 1¼ 32 1½ 40 2 50 2½ 65 3 80 4 100
5,5 140 6 152 6,5 165 7 178 7,5 190 8,5 216 9,5 241 11,12 282 12 305
3,75 95 4,62 115 4,88 125 5,25 135 6,12 155 6,5 165 7,5 190 8,25 210 10 255
2,62 66,7 3,25 82,6 3,5 88,9 3,88 98,4 4,5 114 5 127 5,88 149,2 6,62 168,3 7,88 200
1,38 34,9 1,69 42,9 2 50,8 2,5 63,5 2,88 73 3,62 92,1 4,12 104,8 5 127 6,19 157,2
7,5 190 7,5 190 7,5 190 7,5 190 11,1 282 12,2 311 12,2 311 15 382 23,7 602
8,7 220 8,8 223 8,9 224 9 229 12,8 325 14,4 366 14,5 369 17,9 455 27,4 695
3,8 97 3,94 100 4,17 106 4,7 120 5,6 142 6,2 158 6,5 166 6,6 168 7,3 185
0,51 13 0,75 19 0,99 25 1,26 32 1,5 38 1,93 49 2,44 62 2,92 74 3,95 100
5/8 15,9 3/4 19 3/4 19 3/4 19 7/8 22,2 3/4 19 7/8 22,2 7/8 22,2 7/8 22,2
n 4 4 4 4 4 4 4 4 8 8 8
Weight
Cv/Kv
5,5 2,5 7,7 3,5 9,9 4,5 14,7 6,7 17 7,7 22,9 10,4 31,2 14,2 33,4 15,2 52,4 23,8 141 64 165 75
19,1 16,3 34,7 29,5 50 43 104 89 270 230 311 265 635 540 1027 873 1635 1390 2380 2024 3200 2720
MSA 01.c
DIMENSIONS & WEIGHT
ANSI Class 300 lb/kg
in/mm
Code MSA 01.с.1.1.300.015 MSA 01.с.1.1.300.020 MSA 01.с.1.1.300.025 MSA 01.с.1.1.300.032 MSA 01.с.1.1.300.040 MSA 01.с.1.1.300.050 MSA 01.с.1.1.300.065 MSA 01.с.1.1.300.080 MSA 01.с.1.1.300.100
n 4 4 4 4 4 8 8 8 8
Weight
Cv/Kv
7,7 3,5 9,5 4,3 12,1 5,5 17,6 8 20,8 9,45 29,7 13,5 39,6 18 55 25 81,4 37
19,1 16,3 34,7 29,5 50 43 104 89 270 230 311 265 635 540 1027 873 1635 1390
7
Ball valves
Full bore
MSA 01.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than...................20bar (Class150), 50bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C) Working medium..............................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature................................not less than - 20°F (- 29°C) Quantity of work cycles...................................not less than 5000 Full lifetime......................................................not less than 30 years Pipeline connection.........................................flanged ends Control means................................................actuator handwheel Face-to-face dimension..................................according to ASME B16.10 Flanges connection........................................according to ASME B16.5 Pressure/ temperature rating..........................according to ASME/ANSI B16.34 Testing and inspection....................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
8
Body Ball Stem Press-on bush Ball seat Seat ring Spring Trunion Body gasket Stem seat Gasket ring Ring Handwheel Stud Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 ASTM B637 Gr688 ASTM A216 WCB PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
B
H
Dmin
d
n
Weight
Cv/Kv
MSA 01.с.1.3.150.200
8 200
18 457
13,5 345
11,75 298,5
10,62 269,9
23,6 600
20,5 521
7,9 201
7/8 22,2
8
265 120
3200 2720
MSA 01.с.1.3.150.250
10 250
21 533
16 405
14,25 362
12,75 323,8
23,6 600
22 559
9,92 252
1 25,4
12
462 210
15000 12750
MSA 01.с.1.3.150.300
12 300
24 610
19 485
17 431,8
15 381
24 610
26 660
11,93 303
1 25,4
12
1189 538
23000 19550
MSA 01.c.1.3.150.350
14 350
27 686
21 535
18,75 476,3
16,25 412,8
27 686
27,1 688
13,1 334
1 1/8 28,6
12
1606 730
29900 25415
MSA 01.с.1.3.150.400
16 400
30 762
23,5 595
21,25 539,8
18,5 469,9
30 762
28,3 719
15,2 385
1 1/8 28,6
16
2244 1020
37200 31620
MSA 01.с.1.3.150.500
20 500
36 914
27,5 700
25 635
23 584,2
36 914
36,8 935
19,2 487
1 1/4 31,75
20
4257 1935
59000 50150
MSA 01.с.1.3.150.600
24 600
42 1067
32 815
29,5 749,3
27,25 692,2
42 1067
43,7 1110
23,2 589
1 3/8 34,9
20
6285 2857
92000 78200
NPS/DN
L
D
D1
D2
B
H
Dmin
d
n
Weight
MSA 01.c.1.3.300.150
6 150
15,88 403
12,5 320
10,62 269,9
8,5 215,9
15,9 403
17,87 454
5,9 150
7/8 22,2
12
264 120
2380 2024
MSA 01.с.1.3.300.200
8 200
19,75 502
15 380
13 330
10,62 269,9
19,7 502
20,7 526
7,9 201
1 25,4
12
616 280
3200 2720
MSA 01.с.1.3.300.250
10 250
22,38 568
17,5 445
15,52 387,4
12,75 323,8
22,38 568
24,8 630
9,92 252
1 1/8 28,6
16
1254 570
15000 12750
MSA 01.с.1.3.300.300
12 300
25,5 648
20,5 520
17,75 450,8
15 381
25,5 648
26,4 670
11,93 303
1 1/4 31,75
16
1672 760
23000 19550
MSA 01.с.1.3.300.350
14 350
30 762
23 585
20,25 514,4
16,25 412,8
30 762
27,2 690
13,1 334
1 1/4 31,75
20
1969 895
29900 25415
MSA 01.с.1.3.300.400
16 400
33 838
25,5 650
22,5 571,5
18,5 469,9
33 838
28,3 720
15,2 385
1 3/8 34,9
20
2838 1290
37200 31620
MSA 01.с.1.3.300.500
20 500
39 991
30,5 775
27 685,8
23 584,2
39 591
36,8 935
19,2 487
1 3/8 34,9
24
4484 2038
59000 50150
MSA 01.с.1.3.300.600
24 600
45 1143
36 915
32 812,8
27,75 692,2
45 1143
43,7 1110
23,2 589
1 5/8 41,3
24
6699 3045
92000 78200
ANSI Class 300 lb/kg
in/mm
Code
Cv/Kv
MSA 01.c
DIMENSIONS & WEIGHT
9
Ball valves
Full bore
MSA 01.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than.................20bar (Class150), 50bar (Class300) Working medium temperature........................from -20°F (-29°C) to +356°F(+180°C) Working medium............................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature..............................not less than - 20°F (- 29°C) Quantity of work cycles.................................not less than 5000 Full lifetime....................................................not less than 30 years Pipeline connection.......................................welding end Control means..............................................handle End-to-end dimension..................................according to ASME B16.10 Butt welding end...........................................according to ASME B16.25 Pressure/ temperature rating........................according to ASME/ANSI B16.34 Testing and inspection...................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
10
Body End connection Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A106 GrA ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260 ASTM A516 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
MSA 01.с.2.1.150.015
½ 15
5,5 140
0,84 21,33
3,8 95
0,147 3,73
7,5 190
3,8 97
0,51 13
5,5 2,4
19,1 16,3
MSA 01.с.2.1.150.020
¾ 20
6 152
1,05 26,75
4,2 105
0,154 3,91
7,5 190
3,94 100
0,75 19
6,2 2,8
34,7 29,5
MSA 01.с.2.1.150.025
1 25
6,5 165
1.315 33,4
4,6 115
0,179 4,55
7,5 190
4,17 106
0,99 25
7,7 3,5
50 43
MSA 01.с.2.1.150.032
1¼ 32
7 178
1,66 42,2
5,4 135
0,191 4,85
7,5 190
4,7 120
1,26 32
12,8 5,8
104 89
MSA 01.с.2.1.150.040
1½ 40
7,5 190
1,9 48,3
5,8 145
0,2 5,08
11,1 282
5,6 142
1,5 38
14,3 6,5
270 230
MSA 01.с.2.1.150.050
2 50
8,5 216
2,375 60,3
6,32 158
0,218 5,54
12,2 311
6,2 158
1,93 49
19,1 8,7
311 265
MSA 01.с.2.1.150.065
2½ 65
9,5 241
2,875 73
7,2 180
0,25 6,35
12,2 311
6,5 166
2,44 62
29 13,2
635 540
MSA 01.с.2.1.150.080
3 80
11,12 282
3,5 88,9
7,56 189
0,25 6,35
15 382
6,6 168
2,92 74
30 13,6
1027 873
MSA 01.с.2.1.150.100
4 100
12 305
4,5 114,3
9,2 230
0,281 7,14
23,7 602
7,3 185
3,95 100
42 19,2
1635 1390
MSA 01.с.2.1.150.150
6 150
18 457
6,625 168,3
12,4 310
0,28 7,11
23,7 602
9 230
5,9 150
117 53,2
2380 2024
MSA 01.с.2.1.150.200
8 200
20,5 521
8,625 219,1
15,8 395
0,322 8,18
23,7 602
9,5 243
7,9 201
212 96,5
3200 2720
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
MSA 01.c
DIMENSIONS & WEIGHT
ANSI Class 300 lb/kg
in/mm
Code
NPS/DN
MSA 01.с.2.1.300.015
½ 15
5,5 140
0,84 21,3
3,8 95
0,147 3,73
7,5 190
3,8 97
0,51 13
5,5 2,5
19,1 16,3
MSA 01.с.2.1.300.020
¾ 20
6 152
1,05 26,7
4,2 105
0,154 3,91
7,5 190
3,94 100
0,75 19
6,4 2,9
34,7 29,5
MSA 01.с.2.1.300.025
1 25
6,5 165
1,315 33,4
4,6 115
0,179 4,55
7,5 190
4,17 106
0,99 25
7,9 3,6
50 43
MSA 01.с.2.1.300.032
1¼ 32
7 178
1,66 42,2
5,4 135
0,191 4,85
7,5 190
4,7 120
1,26 32
13 3,9
104 89
MSA 01.с.2.1.300.040
1½ 40
7,5 190
1,9 48,3
5,8 145
0,2 5,08
11,1 282
5,6 142
1,5 38
14,52 6,6
270 230
MSA 01.с.2.1.300.050
2 50
8,5 216
2,375 60,3
6,32 158
0,25 6,35
12,2 311
6,2 158
1,93 49
21,4 9,7
311 265
MSA 01.с.2.1.300.065
2½ 65
9,5 241
2,875 73
7,2 180
0,276 7,01
12,2 311
6,5 166
2,44 62
33 15
635 540
MSA 01.с.2.1.300.080
3 80
11,12 282
3,5 88,9
7,56 189
0,28 7,14
15 382
6,6 168
2,92 74
39,6 18
1027 873
MSA 01.с.2.1.300.100
4 100
12 305
4,5 114,3
9,2 230
0,312 7,92
23,7 602
7,3 185
3,95 100
48,4 22
1635 1390
11
Ball valves
Full bore
MSA 01.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than....................20 bar (Class150), 50 bar (Class300) Working medium temperature...........................from -20°F (-29°C) to +356°F(+180°C) Working medium...............................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature..................................not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000 Full lifetime.......................................................not less than 30 years Pipeline connection..........................................welding end Control means.................................................actuator handwheel End-to-end dimension......................................according to ASME B16.10 Butt welding end...............................................according to ASME B16.25 Pressure/ temperature rating...........................according to ASME/ANSI B16.34 Testing and inspection.....................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Ball valve control is performed manually by rotating actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.
№ part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
12
Body End connection Ball Stem Press-on bush Ball seat Seat ring Spring Trunion Body gasket Stem seat Gasket ring Ring Handwheel Stud Nut Washer
material
Class 150
Class 300
ASTM A516 Grade70 ASTM A106 GrA ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 ASTM B637 Gr688 ASTM A216 WCB PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
T
H
Dmin
Weight
Cv/Kv
MSA 01.с.2.3.150.200
8 200
20,5 521
8,625 219,1
0,322 8,18
20,5 521
7,9 201
212 96,5
3200 2720
MSA 01.с.2.3.150.250
10 250
22 559
10,75 273
0,365 9,27
22 559
9,92 252
444 202
15000 12750
MSA 01.с.2.3.150.300
12 300
25 635
12,75 323,8
0,406 10,31
26 660
11,93 303
1111 505
23000 19550
MSA 01.c.2.3.150.350
14 350
30 762
14 355,6
0,438 11,13
27,1 688
13,1 334
1474 670
29900 25415
MSA 01.с.2.3.150.400
16 400
33 838
16 406,4
0,469 11,91
28,3 719
15,2 385
2145 975
37200 31620
MSA 01.с.2.3.150.500
20 500
39 991
20 508
0,562 14,27
36,8 935
19,2 487
4048 1840
59000 50150
MSA 01.с.2.3.150.600
24 600
45 1143
24 610
0,625 15,88
43,7 1110
23,2 589
5907 2685
92000 78200
NPS/DN
L
D
T
H
Dmin
Weight
Cv/Kv
MSA 01.c.2.3.300.150
6 150
18 457
6,625 168,3
0,375 9,53
17,87 454
5,9 150
209 95
2380 2024
MSA 01.с.2.3.300.200
8 200
20,5 521
8,625 219,1
0,438 11,13
20,7 526
7,9 201
418 190
3200 2720
MSA 01.с.2.3.300.250
10 250
22 559
10,75 273
0,5 12,7
24,8 630
9,92 252
924 420
15000 12750
MSA 01.с.2.3.300.300
12 300
25 635
12,75 323,8
0,625 15,88
26,4 670
11,93 303
1456 662
23000 19550
MSA 01.с.2.3.300.350
14 350
30 762
14 355,6
0,688 17,48
27,2 690
13,1 334
1793 815
29900 25415
MSA 01.с.2.3.300.400
16 400
33 838
16 406,4
0,75 19,05
28,3 720
15,2 385
2310 1050
37200 31620
MSA 01.с.2.3.300.500
20 500
39 991
20 508
0,875 22,23
36,8 935
19,2 487
4048 1840
59000 50150
MSA 01.с.2.3.300.600
24 600
45 1143
24 610
0,969 24,61
43,7 1110
23,2 589
5945 2702
92000 78200
ANSI Class 300 lb/kg
in/mm
Code
MSA 01.c
DIMENSIONS & WEIGHT
13
Ball valves
Reduced bore
MSA 01.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than................20 bar (Class150), 50 bar (Class300) Working medium temperature.......................from -20°F (-29°C) to +356°F (+180°C) Working medium............................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature..............................not less than - 20°F (- 29°C) Quantity of work cycles.................................not less than 5000 Full lifetime....................................................not less than 30 years Pipeline connection.......................................flanged end Control means...............................................handle Face-to-face dimension.................................according to ASME B16.10 Flanges connection.........................................according to ASME B16.5 Pressure/ temperature rating.........................according to ASME/ANSI B16.34 Testing and inspection...................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged ends ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body ball valve. Reduced bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
14
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260 ASTM A516 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
Cv/Kv
MSA 01.с.1.1.150.65/50
2 ½×2 65×50
7,5 190
7 180
5,5 139,7
4,12 104,8
12,2 311
14,2 360
6,2 158
1,93 49
3/4 19
4
27.5 12.5
190 160
MSA 01.с.1.1.150.100/80
4×3 100×80
9 229
9 230
7,5 190,5
6,19 157,2
15 382
17,7 450
6,6 168
2,92 74
3/4 19
8
42 19.2
600 510
MSA 01.с.1.1.150.150/100
6×4 150×100
15,5 394
11 280
9,5 241,3
8,5 215,9
23,7 602
27 687
7,7 195
3,95 100
7/8 22,2
8
95 43
800 680
MSA 01.с.1.1.150.200/150
8×6 200×150
18 457
13,5 345
11,75 298,5
10,62 269,9
23,7 602
27,9 708
9 230
5,9 150
7/8 22,2
8
143 65
2150 1830
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
Cv/Kv
MSA 01.с.1.1.300.65/50
2 ½×2 65×50
9,5 241
7,5 190
5,88 149,2
4,12 104,8
12,2 311
14,5 369
6,2 158
1,93 49
7/8 22,2
8
35,2 16
190 160
MSA 01.с.1.1.300.100/80
4×3 100×80
12 305
10 255
7,88 200
6,19 157,2
15 382
18,1 460
6,5 168
2,92 74
7/8 22,2
8
70,5 32
600 510
MSA 01.с.1.1.300.150/100
6×4 150×100
15,88 403
12,5 320
10,62 269,9
8,5 215,9
23,7 602
27,6 700
7,3 185
3,95 100
7/8 22,2
12
143 65
800 680
ANSI Class 300 lb/kg
in/mm
Code
MSA 01.c
DIMENSIONS & WEIGHT
15
Ball valves
Reduced bore
MSA 01.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than..................20 bar (Class150), 50 bar (Class300) Working medium temperature.........................from -20°F (-29°C) to +356°F (+180°C) Working medium..............................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature............................... not less than - 20°F (- 29°C) Quantity of work cycles...................................not less than 5000 Full lifetime......................................................not less than 30 years Pipeline connection.........................................flanged end Control means.................................................actuator handwheel Face-to-face dimension...................................according to ASME B16.10 Flanges connection.........................................according to ASME B16.5 Pressure/ temperature rating...........................according to ASME/ANSI B16.34 Testing and inspection....................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body ball valve. Reduced bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Ball valve control is performed manually by rotating actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction. MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
16
Body Ball Stem Press-on bush Ball seat Seat ring Spring Trunion Body gasket Stem seat Gasket ring Ring Handwheel Stud Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 ASTM B637 Gr688 ASTM A216 WCB PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
B
H
Dmin
d
n
Weight
Cv/Kv
MSA 01.с.1.3.150.250/200
10×8 250×200
21 533
16 405
14,25 362
12,75 323,8
23,6 600
22 559
7,9 201
1 25,4
12
348 158
4300 3655
MSA 01.с.1.3.150.300/250
12×10 300×250
24 610
19 485
17 431,8
15 381
24 610
26 660
9,92 252
1 25,4
12
825 375
7550 6420
MSA 01.с.1.3.150.350/300
14×12 350×300
27 686
21 535
18,75 476,3
16,25 412,8
27 686
27,1 688
11,93 303
1 1/8 28,6
12
1551 705
14000 11900
MSA 01.с.1.3.150.400/350
16×14 400×350
30 762
23,5 595
21,25 539,8
18,5 469,9
30 762
28,3 719
13,1 334
1 1/8 28,6
16
1903 865
15000 12750
MSA 01.с.1.3.150.500/400
20×16 500/400
36 914
27,5 700
25 635
23 584,2
36 914
36,8 935
15,2 385
1 1/4 31,75
20
3190 1450
15300 13000
MSA 01.с.1.3.150.600/500
24×20 600×500
42 1067
32 815
29,5 749,3
27,25 692,2
42 1067
43,7 1110
19,2 487
1 3/8 34,9
20
4510 2050
28200 23970
NPS/DN
L
D
D1
D2
B
H
Dmin
d
n
MSA 01.с.1.3.300.200/150
8×6 200×150
19,75 502
15 380
13 330,2
10,62 269,9
19,7 502
20,7 526
5,9 150
1 25,4
12
350 159
2150 1830
MSA 01.с.1.3.300.250/200
10×8 250×200
22,38 568
17,5 445
15,25 387,4
12,75 323,8
22,38 568
24,8 630
7,9 201
1 1/8 28,6
16
814 370
4300 3655
MSA 01.с.1.3.300.300/250
12×10 300×250
25,5 648
20,5 520
17,75 450,8
15 381
25,5 648
26,4 670
9,92 252
1 1/4 31,75
16
1507 685
7550 6420
MSA 01.с.1.3.300.350/300
14×12 350×300
30 762
23 585
20,25 514,4
16,25 412,8
30 762
27,2 690
11,93 303
1 1/4 31,75
20
1943 883
14000 11900
MSA 01.с.1.3.300.400/350
16×14 400×350
33 838
25,5 650
22,5 571,5
18,5 469,9
33 838
28,3 720
13,1 334
1 3/8 34,9
20
2024 920
15000 12750
MSA 01.с.1.3.300.500/400
20×16 500×400
39 991
30,5 775
27 685,8
23 584,2
39 991
36,8 935
15,2 385
1 3/8 34,9
24
3718 1690
15300 13000
MSA 01.с.1.3.300.600/500
24×20 600×500
45 1143
36 915
32 812,8
27,75 692,2
45 1143
43,7 1110
19,2 487
1 5/8 41,3
24
4873 2215
28200 23970
ANSI Class 300 lb/kg
in/mm
Code
Weight
Cv/Kv
MSA 01.c
DIMENSIONS & WEIGHT
17
Ball valves
Reduced bore
MSA 01.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....................20 bar (Class150), 50 bar (Class300) Working medium temperature............................from -20°F (-29°C) to +356°F(+180°C) Working medium................................................water, gas, oil products and other nontoxic and nonagressive medium, neutral for ball valve components Environment temperature..................................not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000 Full lifetime........................................................not less than 30 years Pipeline connection...........................................welding end Control means...................................................handle End-to-end dimension.......................................according to ASME B16.10 Butt welding ends..............................................according to ASME B16.25 Pressure/ temperature rating.............................according to ASME/ANSI B16.34 Testing and inspection.......................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body ball valve. Reduced bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
18
Body End connection Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A106 GrA ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260 ASTM A516 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
A
T
L1
H
MSA 01.с.2.1.150.65/50
2 ½×2 65×50
9,5 241
2,875 73
6,32 158
0,25 6,35
12,2 311
6,2 158
MSA 01.с.2.1.150.100/80
4×3 100×80
12 305
4,5 114,3
7,56 189
0,281 7,14
15 382
MSA 01.с.2.1.150.150/100
6×4 150×100
18 457
6,625 168,3
11,2 280
0,28 7,11
MSA 01.с.2.1.150.200/150
8×6 200×150
20,5 521
8,625 219,1
12,4 310
0,322 8,18
Code
NPS/DN
L
D
A
T
L1
H
MSA 01.с.2.1.300.65/50
2 ½×2 65×50
9,5 241
2,875 73
6,32 158
0,276 7,01
12,2 311
6,2 158
MSA 01.с.2.1.300.100/80
4×3 100×80
12 305
4,5 114,3
7,56 189
0,312 7,92
15 382
MSA 01.с.2.1.300.150/100
6×4 150×100
18 457
6,625 168,3
11,2 280
0,375 9,53
23,7 602
Dmin
Weight
Cv/Kv
1,93 49
24,6 11,2
190 160
6,6 168
2,92 74
35 15,9
600 510
23,7 602
7,7 195
3,95 100
71,5 32,5
800 680
23,7 602
9 230
5,9 150
145 66
2150 1830
ANSI Class 300 lb/kg
in/mm
Dmin
Weight
Cv/Kv
1,93 49
26,4 12
190 160
6,6 168
2,92 74
46,2 21
600 510
7,7 195
3,95 100
104,5 47,5
800 680
MSA 01.c
DIMENSIONS & WEIGHT
19 19
Ball valves
Reduced bore
MSA 01.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C) Working medium..............................................water, gas, oil products and other bnontoxic and nonaggressive medium, neutral for ball valve components Environment temperature.................................not less than - 20°F (- 29°C) Quantity of work cycles....................................not less than 5000 Full lifetime.......................................................not less than 30 years Pipeline connection..........................................welding end Control means..................................................actuator handwheel End-to-end dimension......................................according to ASME B16.10 Butt welding ends.............................................according to ASME B16.25 Pressure/ temperature rating............................according to ASME/ANSI B16.34 Testing and inspection......................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters
DESIGN Split body ball valve. Reduced bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Ball valve control is performed manually by rotating actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
20
Body End connection Ball Stem Press-on bush Ball seat Seat ring Spring Trunion Body gasket Stem seat Gasket ring Ring Handwheel Stud Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A106 GrA ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 ASTM B637 Gr688 ASTM A216 WCB PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
T
H
Dmin
Weight
Cv/Kv
MSA 01.с.2.3.150.250/200
10×8 250×200
22 559
10,75 273
0,365 9,27
22 559
7,9 201
233 106
4300 3655
MSA 01.с.2.3.150.300/250
12×10 300×250
25 635
12,75 323,8
0,406 10,31
26 660
9,92 252
539 245
7550 6420
MSA 01.с.2.3.150.350/300
14×12 350×300
30 762
14 355,6
0,438 11,13
27,1 688
11,93 303
1452 660
14000 11900
MSA 01.с.2.3.150.400/350
16×14 400×350
33 838
16 406,4
0,469 11,91
28,3 719
13,1 334
1793 815
15000 12750
MSA 01.с.2.3.150.500/400
20×16 500×400
39 991
20 508
0,562 14,27
36,8 935
15,2 385
2750 815
15300 13000
MSA 01.с.2.3.150.600/500
24×20 600×500
45 1143
24 610
0,625 15,88
43,7 1110
19,2 487
4334 1970
28200 23970
NPS/DN
L
D
T
H
Dmin
Weight
Cv/Kv
MSA 01.с.2.3.300.200/150
8×6 200×150
20,5 521
8,625 219,1
0,438 11,13
20,7 526
5,9 150
277 126
2150 1830
MSA 01.с.2.3.300.250/200
10×8 250×200
22 559
10,75 273
0,5 12,7
24,8 630
7,9 201
627 285
4300 3655
MSA 01.с.2.3.300.300/250
12×10 300×250
25 635
12,75 323,8
0,625 15,88
26,4 670
9,92 252
1144 520
7550 6420
MSA 01.с.2.3.300.350/300
14×12 350×300
30 762
14 355,6
0,688 17,48
27,2 690
11,93 303
1639 745
14000 11900
MSA 01.с.2.3.300.400/350
16×14 400×350
33 838
16 406,4
0,75 19,05
28,3 720
13,1 334
1903 865
15000 12750
MSA 01.с.2.3.300.500/400
20×16 500×400
39 991
20 508
0,875 22,23
36,8 935
15,2 385
3410 1550
15300 13000
MSA 01.с.2.3.300.600/500
24×20 600×500
45 1143
24 610
0,969 24,61
43,7 1110
19,2 487
4290 1950
28200 23970
ANSI Class 300 lb/kg
in/mm
Code
MSA 01.c
DIMENSIONS & WEIGHT
21 21
Ball valves
Full bore
MSA 02.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....................20 bar (Class150), 50 bar (Class300) Working medium temperature............................from -20°F (-29°C) to +482°F (+250°C) Working medium................................................steam, water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature...................................not less than - 20°F (- 29°C) Quantity of work cycles.......................................not less than 5000 Full lifetime..........................................................not less than 30 years Pipeline connection.............................................flanged end Control means.....................................................handle Face-to-face dimension.......................................according to ASME B16.10 Flanges connection.............................................according to ASME B16.5 Pressure/ temperature rating..............................according to ASME/ANSI B16.34 Testing and inspection.........................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters
DESIGN Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
22
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE+20%bronze ASTM A516 Gr70 AISI 9260 PTFE+20%bronze PTFE+20%bronze Rubber PTFE+20%bronze ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260 ASTM A515 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code MSA 02.с.1.1.150.015 MSA 02.с.1.1.150.020 MSA 02.с.1.1.150.025 MSA 02.с.1.1.150.032 MSA 02.с.1.1.150.040 MSA 02.с.1.1.150.050 MSA 02.с.1.1.150.065 MSA 02.с.1.1.150.080 MSA 02.с.1.1.150.100 MSA 02.с.1.1.150.150 MSA 02.с.1.1.150.200
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
½ 15 ¾ 20 1 25 1¼ 32 1½ 40 2 50 2½ 65 3 80 4 100 6 150 8 200
4,25 108 4,62 117 5 127 5,5 140 6,5 165 7 178 7,5 190 8 203 9 229 15,5 394 18 457
3,5 90 3,88 100 4,25 110 4,62 115 5 125 6 150 7 180 7,5 190 9 230 11 280 13,5 345
2,38 60,3 2,75 69,9 3,12 79,4 3,5 88,9 3,88 98,4 4,75 120,7 5,5 139,7 6 152,4 7,5 190,5 9,5 241,3 11,75 298,5
1,38 34,9 1,69 42,9 2 50,8 2,5 63,5 2,88 73 3,62 92,1 4,12 104,8 5 127 6,19 157,2 8,5 215,9 10,62 269,9
7,5 190 7,5 190 7,5 190 7,5 190 11,1 282 12,2 311 12,2 311 15 382 23,7 602 23,7 602 43,6 1108
8,6 218 8,65 220 8,7 221 8,9 226 12,7 322 14,2 360 14,4 365 17,7 450 27 687 27,9 708 48,8 1240
3,8 97 3,94 100 4,17 106 4,7 120 5,6 142 6,2 158 6,5 166 6,6 168 7,3 185 9 230 9,5 243
0,51 13 0,75 19 0,99 25 1,26 32 1,5 38 1,93 49 2,44 62 2,92 74 3,95 100 5,9 150 7,9 201
5/8 15,9 5/8 15,9 5/8 15,9 5/8 15,9 5/8 15,9 3/4 19 3/4 19 3/4 19 3/4 19 7/8 22,2 7/8 22,2
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
½ 15 ¾ 20 1 25 1¼ 32 1½ 40 2 50
5,5 140 6 152 6,5 165 7 178 7,5 190 8,5 216
3,75 95 4,62 115 4,88 125 5,25 135 6,12 155 6,5 165
2,62 66,7 3,25 82,6 3,5 88,9 3,88 98,4 4,5 114 5 127
1,38 34,9 1,69 42,9
7,5 190 7,5 190 7,5 190 7,5 190 11,1 282 12,2 311
8,7 220 8,8 223 8,9 224
3,8 97 3,94 100 4,17 106 4,7 120 5,6 142 6,2 158
0,51 13 0,75 19 0,99 25 1,26 32 1,5 38 1,93 49
5/8 15,9 3/4 19 3/4 19 3/4 19 7/8 22,2 3/4 19
n 4 4 4 4 4 4 4 4 8 8 8
Weight
Cv/Kv
5,5 2,5 7,7 3,5 9,9 4,5 14,7 6,7 17 7,7 22,9 10,4 31,2 14,2 33,4 15,2 52,4 23,8 141 64 165 75
19,1 16,3 34,7 29,5 50 43 104 89 270 230 311 265 635 540 1027 873 1635 1390 2380 2024 3200 2720
MSA 02.c
DIMENSIONS & WEIGHT
ANSI Class 300 lb/kg
in/mm
Code MSA 02.с.1.1.300.015 MSA 02.с.1.1.300.020 MSA 02.с.1.1.300.025 MSA 02.с.1.1.300.032 MSA 02.с.1.1.300.040 MSA 02.с.1.1.300.050
2 50,8 2,5 63,5 2,88 73 3,62 92,1
9 229 12,8 325 14,4 366
n 4 4 4 4 4 8
Weight
Cv/Kv
7,7 3,5 9,5 4,3 12,1 5,5 17,6 8 20,8 9,45 29,7 13,5
19,1 16,3 34,7 29,5 50 43 104 89 270 230 311 265
23
Ball valves
Full bore
MSA 02.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....................20 bar (Class150), 50 bar (Class300) Working medium temperature............................from -20°F (-29°C) to +482°F (+250°C) Working medium................................................steam, water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature...................................not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000 Full lifetime.........................................................not less than 30 years Pipeline connection............................................welding end Control means....................................................handle End-to-end dimension........................................according to ASME B16.10 Butt welding end.................................................according to ASME B16.25 Pressure/ temperature rating..............................according to ASME/ANSI B16.34 Testing and inspection.........................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters
DESIGN Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
24
Body End connection Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Gr70 ASTM A106 GrA ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE+20%bronze ASTM A516 Gr70 AISI 9260 PTFE+20%bronze PTFE+20%bronze Rubber PTFE+20%bronze ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260 ASTM A515 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
MSA 02.с.2.1.150.015
½ 15
5,5 140
0,84 21,33
3,8 95
0,147 3,73
7,5 190
3,8 97
0,51 13
5,5 2,4
19,1 16,3
MSA 02.с.2.1.150.020
¾ 20
6 152
1,05 26,75
4,2 105
0,154 3,91
7,5 190
3,94 100
0,75 19
6,2 2,8
34,7 29,5
MSA 02.с.2.1.150.025
1 25
6,5 165
1.315 33,4
4,6 115
0,179 4,55
7,5 190
4,17 106
0,99 25
7,7 3,5
50 43
MSA 02.с.2.1.150.032
1¼ 32
7 178
1,66 42,2
5,4 135
0,191 4,85
7,5 190
4,7 120
1,26 32
12,8 5,8
104 89
MSA 02.с.2.1.150.040
1½ 40
7,5 190
1,9 48,3
5,8 145
0,2 5,08
11,1 282
5,6 142
1,5 38
14,3 6,5
270 230
MSA 02.с.2.1.150.050
2 50
8,5 216
2,375 60,3
6,32 158
0,218 5,54
12,2 311
6,2 158
1,93 49
19,1 8,7
311 265
MSA 02.с.2.1.150.065
2½ 65
9,5 241
2,875 73
7,2 180
0,25 6,35
12,2 311
6,5 166
2,44 62
29 13,2
635 540
MSA 02.с.2.1.150.080
3 80
11,12 282
3,5 88,9
7,56 189
0,25 6,35
15 382
6,6 168
2,92 74
30 13,6
1027 873
MSA 02.с.2.1.150.100
4 100
12 305
4,5 114,3
9,2 230
0,281 7,14
23,7 602
7,3 185
3,95 100
42 19,2
1635 1390
MSA 02.с.2.1.150.150
6 150
18 457
6,625 168,3
12,4 310
0,28 7,11
23,7 602
9 230
5,9 150
117 53,2
2380 2024
MSA 02.с.2.1.150.200
8 200
20,5 521
8,625 219,1
15,8 395
0,322 8,18
23,7 602
9,5 243
7,9 201
212 96,5
3200 2720
MSA 02.c
DIMENSIONS & WEIGHT
ANSI Class 300 lb/kg
in/mm
Code
NPS/DN
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
MSA 02.с.2.1.300.015
½ 15
5,5 140
0,84 21,3
3,8 95
0,147 3,73
7,5 190
3,8 97
0,51 13
5,5 2,5
19,1 16,3
MSA 02.с.2.1.300.020
¾ 20
6 152
1,05 26,7
4,2 105
0,154 3,91
7,5 190
3,94 100
0,75 19
6,4 2,9
34,7 29,5
MSA 02.с.2.1.300.025
1 25
6,5 165
1,315 33,4
4,6 115
0,179 4,55
7,5 190
4,17 106
0,99 25
7,9 3,6
50 43
MSA 02.с.2.1.300.032
1¼ 32
7 178
1,66 42,2
5,4 135
0,191 4,85
7,5 190
4,7 120
1,26 32
13 3,9
104 89
MSA 02.с.2.1.300.040
1½ 40
7,5 190
1,9 48,3
5,8 145
0,2 5,08
11,1 282
5,6 142
1,5 38
14,52 6,6
270 230
MSA 02.с.2.1.300.050
2 50
8,5 216
2,375 60,3
6,32 158
0,25 6,35
12,2 311
6,2 158
1,93 49
21,4 9,7
311 265
25
Ball valves
Reduced bore
MSA 02.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....................20 bar (Class150) Working medium temperature............................from -20°F (-29°C) to +482°F (+250°C) Working medium.................................................steam, water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature...................................not less than - 20°F (- 29°C) Quantity of work cycles.......................................not less than 5000 Full lifetime..........................................................not less than 30 years Pipeline connection.............................................flanged end Control means.....................................................handle Face-to-face dimension.......................................according to ASME B16.10 Flanges connection.............................................according to ASME B16.5 Pressure/ temperature rating..............................according to ASME/ANSI B16.34 Testing and inspection.........................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters
DESIGN Split body ball valve. Reduced bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
26
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 150
ASTM A516 Grade70 ASTM A240 Type 231 ASTM A182 F6a ASTM A696 Gr70 PTFE+20%bronze ASTM A516 Gr70 AISI 9260 PTFE+20%bronze PTFE+20%bronze Rubber PTFE+20%bronze ASTM A283 GrC ASTM A193 B7M ASTM A194 2H A576 1060 ASTM A515 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
L1
B
H
MSA 02.с.1.1.150.65/50
2 ½×2 65×50
7,5 190
7 180
5,5 139,7
4,12 104,8
12,2 311
14,2 360
6,2 158
MSA 02.с.1.1.150.100/80
4×3 100×80
9 229
9 230
7,5 190,5
6,19 157,2
15 382
17,7 450
MSA 02.с.1.1.150.150/100
6×4 150×100
15,5 394
11 280
9,5 241,3
8,5 215,9
23,7 602
MSA 02.с.1.1.150.200/150
8×6 200×150
18 457
13,5 345
11,75 298,5
10,62 269,9
23,7 602
Dmin
d
n
Weight
Cv/Kv
1,93 49
3/4 19
4
27.5 12.5
190 160
6,6 168
2,92 74
3/4 19
8
42 19.2
600 510
27 687
7,7 195
3,95 100
7/8 22.2
8
95 43
800 680
27,9 708
9 230
5,9 150
7/8 22.2
8
143 65
2150 1830
MSA 02.c
DIMENSIONS & WEIGHT
27
Ball valves MSA 02.c
Reduced bore TECHNICAL CHARACTERISTICS Working pressure, not higher than.....................20 bar (Class150) Working medium temperature............................from -20°F (-29°C) to +482°F (+250°C) Working medium................................................steam, water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature...................................not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000 Full lifetime.........................................................not less than 30 years Pipeline connection............................................welding end Control means....................................................handle End-to-end dimension........................................according to ASME B16.10 Butt welding end.................................................according to ASME B16.25 Pressure/ temperature rating..............................according to ASME/ANSI B16.34 Testing and inspection.........................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters
DESIGN Split body ball valve. Reduced bore. Welding end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
28
Body End connection Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 150
ASTM A516 Gr70 ASTM A106 GrA ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H A576 1060 ASTM A515 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
A
MSA 02.с.2.1.150.65/50
2 ½×2 65×50
9,5 241
2,875 73
6,32 158
MSA 02.с.2.1.150.100/80
4×3 100×80
12 305
4,5 114,3
MSA 02.с.2.1.150.150/100
6×4 150×100
18 457
MSA 02.с.2.1.150.200/150
8×6 200×150
20,5 521
T
L1
H
Dmin
Weight
Cv/Kv
0,25 6,35
12,2 311
6,2 158
1,93 49
24,6 11,2
190 160
7,56 189
0,281 7,14
15 382
6,6 168
2,92 74
35 15,9
600 510
6,625 168,3
11,2 280
0,28 7,11
23,7 602
7,7 195
3,95 100
71,5 32,5
800 680
8,625 219,1
12,4 310
0,322 8,18
23,7 602
9 230
5,9 150
145 66
2150 1830
MSA 02.c
DIMENSIONS & WEIGHT
29
Ball valves
Full bore
MSA 05.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C) Working medium...............................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature................................. not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000 Full lifetime........................................................not less than 30 years Pipeline connection...........................................flanged end Control means...................................................handle Flanges connection...........................................according to ASME B16.5 Pressure/ temperature rating.............................according to ASME/ANSI B16.34 Testing and inspection.......................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters
DESIGN Split body short pattern ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
30
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H ASTM A515 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
Cv/Kv
MSA 05.с.1.1.150.015
½ 15
2,16 55
3,5 90
2,38 60,3
1,38 34,9
7,5 190
8,6 218
3,8 97
0,51 13
5/8 15,9
4
3 1,36
19,1 16,3
MSA 05.с.1.1.150.020
¾ 20
2,28 58
3,88 100
2,75 69,9
1,69 42,9
7,5 190
8,66 219
3,94 100
0,75 19
5/8 15.9
4
4,3 1,97
34,7 29,5
MSA 05.с.1.1.150.025
1 25
2,44 62
4,25 110
3,12 79,4
2 50,8
7,5 190
8,7 221
4,17 106
0,99 25
5/8 15,9
4
5,7 2,6
50 43
MSA 05.с.1.1.150.032
1¼ 32
2,72 69
4,62 115
3,5 88,9
2,5 63,5
7,5 190
8,9 225
4,7 120
1,26 32
5/8 15,9
4
8,7 3,95
104 89
MSA 05.с.1.1.150.040
1½ 40
2,91 74
5 125
3,88 98,4
2,88 73
11,1 282
12,6 319
5,6 142
1,5 38
5/8 15,9
4
9,8 4,45
270 230
MSA 05.с.1.1.150.050
2 50
3,74 95
6 150
4,75 120,7
3,62 92,1
12,2 311
14,2 360
6,2 158
1,93 49
3/4 19
4
16,7 7,6
311 265
MSA 05.с.1.1.150.065
2½ 65
4,49 114
7 180
5,5 139,7
4,12 104,8
12,2 311
14,5 368
6,5 166
2,44 62
3/4 19
4
25,5 11,6
635 540
MSA 05.с.1.1.150.080
3 80
5,04 128
7,5 190
6 152,4
5 127
15 382
17,6 446
6,6 168
2,92 74
3/4 19
4
31,7 14,4
1027 873
MSA 05.с.1.1.150.100
4 100
7,28 185
9 230
7,5 190,5
6,19 157,2
23,7 602
27,45 695
7,3 185
3,95 100
3/4 19
8
55 25
1635 1390
MSA 05.с.1.1.150.150
6 150
7,48 190
11 280
9,5 241,3
8,5 215,9
23,7 602
27,5 697
9 230
5,9 150
7/8 22,2
8
88,7 40,3
2380 2024
MSA 05.с.1.1.150.200
8 200
8,18 208
13,5 345
11,5 298,5
10,62 269,9
43,4 1102
47,7 1206
9,5 243
7,9 201
7/8 22,2
8
167,6 76,2
3200 2720
L
D
D1
D2
L1
B
H
MSA 05.c
DIMENSIONS & WEIGHT
ANSI Class 300 in/mm
Code
NPS/DN
lb/kg
Dmin
d
n
Weight
Cv/Kv
MSA 05.с.1.1.300.015
½ 15
2,4 61
3,75 95
2,62 66,7
1,38 34,9
7,5 190
8,7 220
3,8 97
0,51 13
5/8 15,9
4
3,96 1,8
19,1 16,3
MSA 05.с.1.1.300.020
¾ 20
2,52 64
4,62 115
3,25 82,6
1,69 42,9
7,5 190
8,74 223
3,94 100
0,75 19
3/4 19
4
5,9 2,7
34,7 29,5
MSA 05.с.1.1.300.025
1 25
2,61 66
4,88 125
3,5 88,9
2 50,8
7,5 190
8,8 229
4,17 106
0,99 25
3/4 19
4
7,6 3,47
50 43
MSA 05.с.1.1.300.032
1¼ 32
3,07 78
5,25 135
3,88 98,4
2,5 63,5
7,5 190
9 229
4,7 120
1,26 32
3/4 19
4
11 5
104 89
MSA 05.с.1.1.300.040
1½ 40
3,31 84
6,12 155
4,5 114
2,88 73
11,1 282
12,75 324
5,6 142
1,5 38
7/8 22,2
4
14,3 6,5
270 230
MSA 05.с.1.1.300.050
2 50
4,25 108
6,5 165
5 127
3,62 92,1
12,2 311
14,3 365
6,2 158
1,93 49
3/4 19
8
18,7 8,5
311 265
MSA 05.с.1.1.300.065
2½ 65
4,96 126
7,5 190
5,88 149,2
4,12 104,8
12,2 311
14,7 374
6,5 166
2,44 62
7/8 22,2
8
29,26 13,3
635 540
MSA 05.с.1.1.300.080
3 80
5,59 142
8,25 210
6,62 168,3
5 127
15 382
17,8 459
6,6 168
2,92 74
7/8 22,2
8
39 17,74
1027 873
MSA 05.с.1.1.300.100
4 100
7,87 200
10 255
7,88 200
6,19 157,2
23,7 602
27,7 702
7,3 185
3,95 100
7/8 22,2
8
70,4 32
1635 1390
MSA 05.с.1.1.300.150
6 150
8,34 212
12,5 320
10,62 269,9
8,5 215,9
23,7 602
27,9 708
9 230
5,9 150
7/8 22,2
12
120,6 54,8
2380 2024
MSA 05.с.1.1.300.200
8 200
9,17 233
15 380
13 330,2
10,62 269,9
43,4 1102
48 1220
9,5 243
7,9 201
1 25,4
12
212,8 96,74
3200 2720
31
Ball valves
Reduced bore
MSA 05.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C) Working medium...............................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components Environment temperature................................. not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000 Full lifetime........................................................not less than 30 years Pipeline connection...........................................flanged end Control means...................................................handle Flanges connection...........................................according to ASME B16.5 Pressure/ temperature rating.............................according to ASME/ANSI B16.34 Testing and inspection.......................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body short pattern ball valve. Reduced bore. Flanged end design. Ball valve body is made of carbon steel. Body component parts are made with the application of welding. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
32
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A516 Grade70 ASTM A240 Type 321 ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE PTFE Rubber PTFE ASTM A283 GrC ASTM A193 B7M ASTM A194 2H ASTM A515 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
Cv/Kv
MSA 05.с.1.1.150.65/50
2 ½×2 65×50
4,01 102
7 180
5,5 139,7
4,12 104,8
12,2 311
14,3 362
6,2 158
1,93 49
3/4 19
4
21,3 9,7
190 160
MSA 05.с.1.1.150.100/80
4×3 100×80
5,04 128
9 230
7,5 190,5
6,19 157,2
15 382
17,6 446
6,6 168
2,92 74
3/4 19
8
42,7 19,4
600 510
MSA 05.с.1.1.150.150/100
6×4 150×100
6,53 166
11 280
9,5 241,3
8,5 215,9
23,7 602
27 685
7,7 195
3,95 100
7/8 22,2
8
58,3 26,5
800 680
MSA 05.с.1.1.150.200/150
8×6 200×150
8,26 210
13,5 345
11,75 298,5
10,62 269,9
23,7 602
27,9 707
9 230
5,9 150
7/8 22,2
8
124,1 56,4
2150 1830
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
Cv/Kv
ANSI Class 300 lb/kg
in/mm
Code
NPS/DN
MSA 05.с.1.1.300.65/50
2 ½×2 65×50
4,49 114
7,5 190
5,88 149,2
4,12 104,8
12,2 311
14,5 368
6,2 158
1,93 49
7/8 22,2
8
25,3 11,5
190 160
MSA 05.с.1.1.300.100/80
4×3 100×80
5,82 148
10 255
7,88 200
6,19 157,2
15 382
17,94 456
6,5 168
2,92 74
7/8 22,2
8
58,74 26,7
600 510
MSA 05.с.1.1.300.150/100
6×4 150×100
7,56 192
12,5 320
10,62 269,9
8,5 215,9
23,7 602
27,5 698
7,3 185
3,95 100
7/8 22,2
12
94 42,7
800 680
MSA 05.с.1.1.300.200/150
8×6 200×150
8,7 221
15 380
13 330,2
10,62 269,9
23,7 602
28,1 713
10,2 260
5,9 150
1 25,4
12
175 79,6
2150 1830
MSA 05.c
DIMENSIONS & WEIGHT
33
Ball valves
Full bore
MSA 21.c MSA 21.s
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA
Working pressure, not higher than..............20 bar (Class150), 50 bar (Class300) Working medium temperature.....................from -20°F (-29°C) to +356°F (+180°C) Working medium....................MSA 21.c — water, gas, oil products and other nontoxic and nonaggressive and neutral medium for ball valve components MSA 21.s — water, gas, oil products and other including aggressive and neutral medium one for ball valve components Environment temperature...........................not less than - 20°F (- 29°C) Quantity of work cycles..............................not less than 5000 Full lifetime................................................not less than 30 years Pipeline connection....................................flanged end Control means............................................handle Face-to-face dimension..............................according to ASME B16.10 Flanges connection.....................................according to ASME B16.5 Pressure/ temperature rating......................according to ASME/ANSI B16.34 Testing and inspection................................according to API 6D, API 598
Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Single body all-welded ball valve. Full bore. Flanged end design. All body component parts are joined by welding. Ball valve is maintenancefree. Design types: MSA 21.c – made of carbon steel. MSA 21.s – made of stainless steel. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name
PRESSURE/TEMPERATURE RATING Class 150
material
MSA 21.c
MSA 21.s
ASTM A106 GradeB
ASTM A376 TP304
1
Body
2
Ball
3
Stem
ASTM A182 F6a
ASTM A479 Type321
4
Press-on bush
ASTM A696 Gr70
ASTM A479 Type321
ASTM A240 Type 231
5
Ball seat
6
Seat ring
7
Spring washer
8
Stem seat
PTFE
PTFE
Rubber
ASTM A516 Gr70
ASTM A240 Type321
AISI 9260
AISI 316
9
Gasket ring
10
Ring
11
Handle
12
Nut
ASTM A194 2H
13
Washer
ASTM A106 GrA
34
Class 300
PTFE ASTM A283 GrC ASTM A194 8M ASTM A240 Type321
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
Cv/Kv
MSA 21.с.1.1.150.015 MSA 21.s.1.1.150.015
½ 15
4,25 108
3,5 90
2,38 60,3
1,38 34,9
7,5 190
9,6 244
3,8 97
0,51 13
5/8 15,9
4
3,7 1,7
19,1 16,3
MSA 21.с.1.1.150.020 MSA 21.s.1.1.150.020
¾ 20
4,62 117
3,88 100
2,75 69,9
1,69 42,9
7,5 190
9,8 249
3,94 100
0,75 19
5/8 15.9
4
6,4 2,9
34,7 29,5
MSA 21.с.1.1.150.025 MSA 21.s.1.1.150.025
1 25
5 127
4,25 110
3,12 79,4
2 50,8
7,5 190
10 254
4,17 106
0,99 25
5/8 15,9
4
8,4 3,8
50 43
MSA 21.с.1.1.150.032 MSA 21.s.1.1.150.032
1¼ 32
5,5 140
4,62 115
3,5 88,9
2,5 63,5
7,5 190
10,2 260
4,7 120
1,26 32
5/8 15,9
4
12,1 5,5
104 89
MSA 21.с.1.1.150.040 MSA 21.s.1.1.150.040
1½ 40
6,5 165
5 125
3,88 98,4
2,88 73
11,1 282
14,4 365
5,6 142
1,5 38
5/8 15,9
4
14,3 6,5
270 230
MSA 21.с.1.1.150.050 MSA 21.s.1.1.150.050
2 50
7 178
6 150
4,75 120,7
3,62 92,1
12,2 311
15,7 400
6,2 158
1,93 49
3/4 19
4
19,4 8,8
311 265
MSA 21.с.1.1.150.065 MSA 21.s.1.1.150.065
2½ 65
7,5 190
7 180
5,5 139,7
4,12 104,8
12,2 311
16 406
6,5 166
2,44 62
3/4 19
4
23,5 10,7
635 540
MSA 21.с.1.1.150.080 MSA 21.s.1.1.150.080
3 80
8 203
7,5 190
6 152,4
5 127
15 382
19 484
6,6 168
2,92 74
3/4 19
4
32,3 14,7
1027 873
MSA 21.с.1.1.150.100 MSA 21.s.1.1.150.100
4 100
9 229
9 230
7,5 190,5
6,19 157,2
23,7 602
28,2 717
7,3 185
3,95 100
3/4 19
8
68,2 31
1635 1390
MSA 21.с.1.1.150.150 MSA 21.s.1.1.150.150
6 150
15,5 394
11 280
9,5 241,3
8,5 215,9
23,7 602
31,4 799
9 230
5,9 150
7/8 22,2
8
124,5 55,6
2380 2024
MSA 21.с.1.1.150.200 MSA 21.s.1.1.150.200
8 200
18 457
13,5 345
11,75 298,5
10,62 269,9
43,4 1102
52,4 1330
9,5 243
7,9 201
7/8 22,2
8
156,8 71,3
3200 2720
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
MSA 21.с.1.1.300.015 MSA 21.s.1.1.300.015
½ 15
5,5 140
3,75 95
2,62 66,7
1,38 34,9
7,5 190
10,2 260
3,8 97
0,51 13
5/8 15,9
MSA 21.с.1.1.300.020 MSA 21.s.1.1.300.020
¾ 20
6,0 152
4,62 115
3,25 82,6
1,69 42,9
7,5 190
10,5 266
3,94 100
0,75 19
MSA 21.с.1.1.300.025 MSA 21.s.1.1.300.025
1 25
6,5 165
4,88 125
3,5 88,9
2 50,8
7,5 190
10,7 273
4,17 106
MSA 21.с.1.1.300.032 MSA 21.s.1.1.300.032
1¼ 32
7,0 178
5,25 135
3,88 98,4
2,5 63,5
7,5 190
11,0 279
MSA 21.с.1.1.300.040 MSA 21.s.1.1.300.040
1½ 40
7,5 190
6,12 155
4,5 114
2,88 73
11,1 282
MSA 21.с.1.1.300.050 MSA 21.s.1.1.300.050
2 50
8,5 216
6,5 165
5,0 127
3,62 92,1
MSA 21.с.1.1.300.065 MSA 21.s.1.1.300.065
2½ 65
9,5 241
7,5 190
5,88 149,2
MSA 21.с.1.1.300.080 MSA 21.s.1.1.300.080
3 80
11,12 282
8,25 210
MSA 21.с.1.1.300.100 MSA 21.s.1.1.300.100
4 100
12 305
MSA 21.с.1.1.300.150 MSA 21.s.1.1.300.150
6 150
MSA 21.с.1.1.300.200 MSA 21.s.1.1.300.200
8 200
ANSI Class 300 lb/kg
in/mm
Code
Cv/Kv
4
3,96 1,8
19,1 16,3
3/4 19
4
6,8 3,1
34,7 29,5
0,99 25
3/4 19
4
9,5 4,3
50 43
4,7 120
1,26 32
3/4 19
4
13,4 6,1
104 89
14,8 377
5,6 142
1,5 38
7/8 22,2
4
16 7,3
270 230
12,2 311
16,5 419
6,2 158
1,93 49
3/4 19
8
23,1 10,5
311 265
4,12 104,8
12,2 311
17,0 432
6,5 166
2,44 62
7/8 22,2
8
25 11,4
635 540
6,62 168,3
5 127
15 382
20,6 523
6,6 168
2,92 74
7/8 22,2
8
34,76 15,8
1027 873
10 255
7,88 200
6,19 157,2
23,7 602
29,7 755
7,3 185
3,95 100
7/8 22,2
8
75,9 34,5
1635 1390
15,88 403
12,5 320
10,62 269,9
8,5 215,9
23,7 602
31,7 804
9 230
5,9 150
7/8 22,2
12
100,5 45,7
2380 2024
19,75 502
15 380
13 330
10,62 269,9
43,4 1102
50,8 1292
9,5 243
7,9 201
1 25,4
12
159,5 72,5
3200 2720
Note: MSA 21.c — carbon steel ball valve design MSA 21.s — stainless steel ball valve design
MSA 21.c MSA 21.s
DIMENSIONS & WEIGHT
35
Ball valves
Full bore
MSA 21.c MSA 21.s
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA
Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C) Working medium.........................MSA 21.c — water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MSA 21.s — water, gas, oil products and other including aggressive and neutral medium one for ball valve components Environment temperature...................................not less than - 20°F (- 29°C) Quantity of work cycles.......................................not less than 5000 Full lifetime.........................................................not less than 30 years Pipeline connection............................................welding end Control means....................................................handle End-to-end dimension.........................................according to ASME B16.10 Butt welding ends................................................according to ASME B16.25 Pressure/ temperature rating..............................according to ASME/ANSI B16.34 Testing and inspection........................................according to API 6D, API 598
Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters DESIGN Single body all-welded ball valve. Full bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenancefree. Design types: MSA 21.c – made of carbon steel. MSA 21.s – made of stainless steel. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction
MATERIALS LIST № part name
material
MSA 21.c
1
Body
2 3
Ball End connection
4
Stem
5
Press-on bush
6
Ball seat
7
Seat ring
8 9 10 11 12 13
Spring washer Stem seat Gasket ring Ring Handle Nut
14
Washer
36
MSA 21.s
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A106 ASTM A376 GradeB TP304 ASTM A240 Type 231 ASTM A376 ASTM A106 GrA TP304 ASTM A479 ASTM A182 F6a Type321 ASTM A479 ASTM A696 Gr70 Type321 PTFE ASTM A240 ASTM A516 Gr70 Type321 AISI 9260 AISI 316 PTFE Rubber PTFE ASTM A283 GrC ASTM A194 2H ASTM A194 8M ASTM A240 ASTM A106 GrA Type321
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
MSA 21.с.2.1.150.015 MSA 21.s.2.1.150.015
½ 15
5,5 140
0,84 21,33
1,86 42,2
0,147 3,73
7,5 190
3,8 97
0,51 13
2,09 0,95
19,1 16,3
MSA 21.с.2.1.150.020 MSA 21.s.2.1.150.020
¾ 20
6 152
1,05 26,75
1,9 48,3
0,154 3,91
7,5 190
3,94 100
0,75 19
3,3 1,5
34,7 29,5
MSA 21.с.2.1.150.025 MSA 21.s.2.1.150.025
1 25
6,5 165
1,315 33,4
2,375 60,3
0,179 4,55
7,5 190
4,17 106
0,99 25
4,62 2,1
50 43
MSA 21.с.2.1.150.032 MSA 21.s.2.1.150.032
1¼ 32
7 178
1,66 42,2
2,875 73
0,191 4,85
7,5 190
4,7 120
1,26 32
7 3,2
104 89
MSA 21.с.2.1.150.040 MSA 21.s.2.1.150.040
1½ 40
7,5 190
1,9 48,3
3,5 88,9
0,2 5,08
11,1 282
5,6 142
1,5 38
9 4,1
270 230
MSA 21.с.2.1.150.050 MSA 21.s.2.1.150.050
2 50
8,5 216
2,375 60,3
4 101,6
0,218 5,54
12,2 311
6,2 158
1,93 49
12,54 5,7
311 265
MSA 21.с.2.1.150.065 MSA 21.s.2.1.150.065
2½ 65
9,5 241
2,875 73
5,56 141,3
0,25 6,35
12,2 311
6,5 166
2,44 62
18 8,2
635 540
MSA 21.с.2.1.150.080 MSA 21.s.2.1.150.080
3 80
11,12 282
3,5 88,9
5,56 141,3
0,25 6,35
15 382
6,6 168
2,92 74
20 9,1
1027 873
MSA 21.с.2.1.150.100 MSA 21.s.2.1.150.100
4 100
12 305
4,5 114,3
7 177,8
0,281 7,14
23,7 602
7,3 185
3,95 100
34,54 15,7
1635 1390
MSA 21.с.2.1.150.150 MSA 21.s.2.1.150.150
6 150
18 457
6,625 168,3
9,626 244,5
0,28 7,11
23,7 602
9 230
5,9 150
66,9 30,4
2380 2024
MSA 21.с.2.1.150.200 MSA 21.s.2.1.150.200
8 200
20,5 521
8,625 219,1
12,75 323,9
0,322 8,18
43,4 1102
9,5 243
7,9 201
141,5 64,3
3200 2720
NPS/DN
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
MSA 21.с.2.1.300.015 MSA 21.s.2.1.300.015
½ 15
5,5 140
0,84 21,33
1,86 42,2
0,147 3,73
7,5 190
3,8 97
0,51 13
2,09 0,95
19,1 16,3
MSA 21.с.2.1.300.020 MSA 21.s.2.1.300.020
¾ 20
6 152
1,05 26,75
1,9 48,3
0,154 3,91
7,5 190
3,94 100
0,75 19
3,3 1,5
34,7 29,5
MSA 21.с.2.1.300.025 MSA 21.s.2.1.300.025
1 25
6,5 165
1,315 33,4
2,375 60,3
0,179 4,55
7,5 190
4,17 106
0,99 25
4,62 2,1
50 43
MSA 21.с.2.1.300.032 MSA 21.s.2.1.300.032
1¼ 32
7 178
1,66 42,2
2,875 73
0,191 4,85
7,5 190
4,7 120
1,26 32
7 3,2
104 89
MSA 21.с.2.1.300.040 MSA 21.s.2.1.300.040
1½ 40
7,5 190
1,9 48,3
3,5 88,9
0,2 5,08
11,1 282
5,6 142
1,5 38
9 4,1
270 230
MSA 21.с.2.1.300.050 MSA 21.s.2.1.300.050
2 50
8,5 216
2,375 60,3
4 101,6
0,25 6,35
12,2 311
6,2 158
1,93 49
12,9 5,9
311 265
MSA 21.с.2.1.300.065 MSA 21.s.2.1.300.065
2½ 65
9,5 241
2,875 73
5,56 141,3
0,276 7,01
12,2 311
6,5 166
2,44 62
19,4 8,8
635 540
MSA 21.с.2.1.300.080 MSA 21.s.2.1.300.080
3 80
11,12 282
3,5 88,9
5,56 141,3
0,28 7,14
15 382
6,6 168
2,92 74
21,34 9,7
1027 873
MSA 21.с.2.1.300.100 MSA 21.s.2.1.300.100
4 100
12 305
4,5 114,3
7 177,8
0,312 7,92
23,7 602
7,3 185
3,95 100
39,2 17,8
1635 1390
MSA 21.с.2.1.300.150 MSA 21.s.2.1.300.150
6 150
18 457
6,625 168,3
9,626 244,5
0,375 9,53
23,7 602
9 230
5,9 150
74,4 33,8
2380 2024
MSA 21.с.2.1.300.200 MSA 21.s.2.1.300.200
8 200
20,5 521
8,625 219,1
12,75 323,9
0,438 11,13
43,4 1102
9,5 243
7,9 201
144,8 65,8
3200 2720
ANSI Class 300 lb/kg
in/mm
Code
Note: MSA 21.c — carbon steel ball valve design MSA 21.s — stainless steel ball valve design
MSA 21.c MSA 21.s
DIMENSIONS & WEIGHT
37
Ball valves
Reduced bore
MSA 21.c MSA 21.s
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA
Working pressure, not higher than..............20 bar (Class150), 50 bar (Class300) Working medium temperature.....................from -20°F (-29°C) to +356°F (+180°C) Working medium....................MSA 21.c — water, gas, oil products and other nontoxic and nonaggressive and neutral medium for ball valve components MSA 21.s — water, gas, oil products and other including aggressive and neutral medium for ball valve components Environment temperature...........................not less than - 20°F (- 29°C) Quantity of work cycles..............................not less than 5000 Full lifetime................................................not less than 30 years Pipeline connection....................................flanged end Control means............................................handle Face-to-face dimension..............................according to ASME B16.10 Flanges connection.....................................according to ASME B16.5 Pressure/temperature rating.......................according to ASME/ANSI B16.34 Testing and inspection................................according to API 6D, API 598
Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Single body all-welded ball valve. Reduced bore. Flanged end design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MSA 21.c – made of carbon steel. MSA 21.s – made of stainless steel. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name
PRESSURE/TEMPERATURE RATING Class 150
material
MSA 21.c
MSA 21.s
ASTM A106 GradeB
ASTM A376 TP304
1
Body
2
Ball
3
Stem
ASTM A182 F6a
ASTM A479 Type321
4
Press-on bush
ASTM A696 Gr70
ASTM A479 Type321
ASTM A240 Type 231
5
Ball seat
6
Seat ring
7
Spring washer
8
Stem seat
PTFE
PTFE
Rubber
ASTM A516 Gr70
ASTM A240 Type321
AISI 9260
AISI 316
9
Gasket ring
10
Ring
11
Handle
12
Nut
ASTM A194 2H
13
Washer
ASTM A106 GrA
38
Class 300
PTFE ASTM A283 GrC ASTM A194 8M ASTM A240 Type321
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
MSA 21.с.1.1.150.020/015 MSA 21.s.1.1.150.020/015
¾×½ 20×15
4,6 117
3,88 100
2,75 69,9
1,69 42,9
7,5 190
9,8 249
3,8 97
0,51 13
5/8 15,9
4
4,03 1,83
MSA 21.с.1.1.150.025/020 MSA 21.s.1.1.150.025/020
1× ¾ 25×20
5 127
4,25 110
3,12 79,4
2 50,8
7,5 190
10 254
3,9 100
MSA 21.с.1.1.150.032/025 MSA 21.s.1.1.150.032/025
1 ¼ ×1 32×25
5,5 140
4,62 115
3,5 88,9
2,5 63,5
7,5 190
10,2 260
MSA 21.с.1.1.150.040/032 MSA 21.s.1.1.150.040/032
1 ½×1 ¼ 40×32
6,5 165
5 125
3,88 98,4
2,88 73
7,5 190
MSA 21.с.1.1.150.050/040 MSA 21.s.1.1.150.050/040
2×1 ½ 50×40
7 178
6 150
4,75 120,7
3,62 92,1
MSA 21.с.1.1.150.065/050 MSA 21.s.1.1.150.065/050
2 ½×2 65×50
7,5 190
7 180
5,5 139,7
MSA 21.с.1.1.150.080/065 MSA 21.s.1.1.150.080/065
3×2 ½ 80×65
8 203
7,5 190
MSA 21.с.1.1.150.100/080 MSA 21.s.1.1.150.100/080
4×3 100×80
9 229
MSA 21.с.1.1.150.150/100 MSA 21.s.1.1.150.150/100
6×4 150×100
MSA 21.с.1.1.150.200/150 MSA 21.s.1.1.150.200/150 MSA 21.с.1.1.150.250/200 MSA 21.s.1.1.150.250/200
Cv/Kv 12 10
0,75 19
5/8 15.9
4
5,4 2,45
24 21
4,2 106
0,99 25
5/8 15,9
4
8,4 3,81
38 32
10,7 273
4,7 120
1,26 32
5/8 15,9
4
11,07 5,02
71 60
11,1 282
14,6 371
5,6 142
1,5 38
3/4 19
4
16,6 7,53
176 150
4,12 104,8
12,2 311
16 406
6,2 158
1,93 49
3/4 19
4
20,26 9,19
190 160
6 152,4
5 127
12,2 311
16,3 413
6,5 166
2,4 62
3/4 19
4
25,99 11,79
447 380
9 230
7,5 190,5
6,19 157,2
15 382
19,6 497
6,6 168
2,92 74
3/4 19
8
38,4 17,42
600 510
15,5 394
11 280
9,5 241,3
8,5 215,9
23,7 602
31,5 799
7,3 185
3,95 100
7/8 22,2
8
67,35 30,55
800 680
8×6 200×150
18 457
13,5 345
11,75 298,5
10,62 269,9
23,7 602
32,7 831
9,1 230
5,9 150
7/8 22,2
8
88,96 40,35
2150 1830
10×8 250×200
21 533
16 405
14,25 362
12,75 323,8
43,4 1102
53,9 1369
9,6 243
7,9 201
1 25,4
12
115,5 52,4
4300 3655
n
Weight
Cv/Kv 12 10
ANSI Class 300 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
MSA 21.с.1.1.300.020/015 MSA 21.s.1.1.300.020/015
¾×½ 20×15
6 152
4,62 115
3,25 82,6
1,69 42,9
7,5 190
10,5 266
3,8 97
0,51 13
5/8 15,9
4
4,92 2,23
MSA 21.с.1.1.300.025/020 MSA 21.s.1.1.300.025/020
1× ¾ 25×20
6,5 165
4,88 125
3,5 88,9
2 50,8
7,5 190
10,7 273
3,9 100
0,75 19
3/4 19
4
6,5 2,95
24 21
MSA 21.с.1.1.300.032/025 MSA 21.s.1.1.300.032/025
1 ¼ ×1 32×25
7 178
5,25 135
3,88 98,4
2,5 63,5
7,5 190
11 279
4,2 106
0,99 25
3/4 19
4
9,5 4,31
38 32
MSA 21.с.1.1.300.040/032 MSA 21.s.1.1.300.040/032
1 ½ ×1 ¼ 40×32
7,5 190
6,12 155
4,5 114
2,88 73
7,5 190
11,2 285
4,7 120
1,26 32
7/8 22,2
4
12,61 5,72
71 60
MSA 21.с.1.1.300.050/040 MSA 21.s.1.1.300.050/040
2×1 ½ 50×40
8,5 216
6,5 165
5 127
3,62 92,1
11,1 282
15,4 390
5,6 142
1,5 38
3/4 19
8
16,6 7,53
176 150
MSA 21.с.1.1.300.065/050 MSA 21.s.1.1.300.065/050
2 ½ ×2 65×50
9,5 241
7,5 190
5,88 149,2
4,12 104,8
12,2 311
17 432
6,2 158
1,93 49
7/8 22,2
8
21,8 9,89
190 160
MSA 21.с.1.1.300.080/065 MSA 21.s.1.1.300.080/065
3×2 ½ 80×65
11,12 282
8,25 210
6,62 168,3
5 127
12,2 311
17,8 452
6,5 166
2,4 62
7/8 22,2
8
28,42 12,89
447 380
MSA 21.с.1.1.300.100/080 MSA 21.s.1.1.300.100/080
4×3 100×80
12 305
10 255
7,88 200
6,19 157,2
15 382
21,1 535
6,6 168
2,92 74
7/8 22,2
8
51,41 23,32
600 510
MSA 21.с.1.1.300.150/100 MSA 21.s.1.1.300.150/100
6×4 150×100
15,88 403
12,5 320
10,62 269,9
8,5 215,9
23,7 602
31,7 804
7,3 185
3,95 100
7/8 22,2
12
86,53 39,25
800 680
MSA 21.с.1.1.300.200/150 MSA 21.s.1.1.300.200/150
8×6 200×150
19,75 502
15 380
13 330,2
10,62 269,9
23,7 602
33,6 853
9,1 230
5,9 150
1 25,4
12
104,74 47,51
2150 1830
MSA 21.с.1.1.300.250/200 MSA 21.s.1.1.300.250/200
10×8 250×200
22,38 568
17,5 445
15,24 387,4
12,75 323,8
43,4 1102
54,6 1386
9,6 243
7,9 201
1 1/8 28,6
16
128,3 58,2
4300 3655
Note: MSA 21.c — carbon steel ball valve design MSA 21.s — stainless steel ball valve design
MSA 21.c MSA 21.s
DIMENSIONS & WEIGHT
39
Ball valves
Reduced bore
MSA 21.c MSA 21.s
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA
Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C) Working medium.........................MSA 21.c — water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MSA 21.s — water, gas, oil products and other including aggressive and neutral medium for ball valve components Environment temperature...................................not less than - 20°F (- 29°C) Quantity of work cycles.......................................not less than 5000 Full lifetime.........................................................not less than 30 years Pipeline connection............................................welding end Control means....................................................handle End-to-end dimension.........................................according to ASME B16.10 Butt welding end.................................................according to ASME B16.25 Pressure/temperature rating...............................according to ASME/ANSI B16.34 Testing and inspection........................................according to API 6D, API 598
Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters DESIGN Single body all-welded ball valve. Full bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenancefree. Design types: MSA 21.c – made of carbon steel. MSA 21.s – made of stainless steel. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Seats are pressed to the ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction
MATERIALS LIST № part name
material
MSA 21.c
1
Body
2 3
Ball End connection
4
Stem
5
Press-on bush
6
Ball seat
7
Seat ring
8 9 10 11 12 13
Spring washer Stem seat Gasket ring Ring Handle Nut
14
Washer
40
MSA 21.s
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A106 ASTM A376 GradeB TP304 ASTM A240 Type 231 ASTM A376 ASTM A106 GrA TP304 ASTM A479 ASTM A182 F6a Type321 ASTM A479 ASTM A696 Gr70 Type321 PTFE ASTM A240 ASTM A516 Gr70 Type321 AISI 9260 AISI 316 PTFE Rubber PTFE ASTM A283 GrC ASTM A194 2H ASTM A194 8M ASTM A240 ASTM A106 GrA Type321
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
MSA 21.с.2.1.150.020/015 MSA 21.s.2.1.150.20/15
¾×½ 20×15
6 152
1,1 26,7
1,7 42,2
0,154 3,91
7,5 190
3,8 97
0,51 13
2,27 1,03
19,1 16,3
MSA 21.с.2.1.150.025/020 MSA 21.s.2.1.150.025/020
1× ¾ 25×20
6,5 165
1,3 33,4
1,9 48,3
0,179 4,55
7,5 190
3,94 100
0,75 19
2,76 1,25
34,7 29,5
MSA 21.с.2.1.150.032/025 MSA 21.s.2.1.150.032/025
1¼ ×1 32×25
7 178
1,7 42,2
2,375 60,3
0,191 4,85
7,5 190
4,17 106
0,99 25
4,28 1,94
50 43
MSA 21.с.2.1.150.040/032 MSA 21.s.2.1.150.040/032
1½ ×1¼ 40×32
7,5 190
1,9 48,3
2,875 73
0,2 5,08
7,5 190
4,7 120
1,26 32
6,22 2,82
104 89
MSA 21.с.2.1.150.050/040 MSA 21.s.2.1.150.050/040
2×1 ½ 50×40
8,5 216
2,4 60,3
3,5 88,9
0,218 5,54
11,1 282
5,6 142
1,5 38
9,94 4,51
270 230
MSA 21.с.2.1.150.065/050 MSA 21.s.2.1.150.065/050
2 ½ ×2 65×50
9,5 241
2,9 73
4 101,6
0,25 6,35
12,2 311
6,2 158
1,93 49
14,77 6,7
311 265
MSA 21.с.2.1.150.080/065 MSA 21.s.2.1.150.080/065
3×2 ½ 80×65
11,12 282
3,5 88,9
5,56 141,3
0,25 6,35
12,2 311
6,5 166
2,44 62
20,06 9,1
635 540
MSA 21.с.2.1.150.100/080 MSA 21.s.2.1.150.100/080
4×3 100×80
12 305
4,5 114,3
5,56 141,3
0,281 7,14
15 382
6,6 168
2,92 74
28,88 13,1
1027 873
MSA 21.с.2.1.150.150/100 MSA 21.s.2.1.150.150/100
6×4 150×100
18 457
6,6 168,3
7 177,8
0,28 7,11
23,7 602
7,3 185
3,95 100
63,71 28,9
1635 1390
MSA 21.с.2.1.150.200/150 MSA 21.s.2.1.150.200/150
8×6 200×150
20,5 521
8,6 219,1
9,626 244,5
0,322 8,18
23,7 602
9 230
5,9 150
72,3 32,8
2380 2024
MSA 21.с.2.1.150.250/200 MSA 21.s.2.1.150.250/200
10×8 250×200
22 559
10,7 273
12,75 323,9
0,34 8,74
43,4 1102
9,5 243
7,9 201
156,8 71,1
3200 2720
NPS/DN
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
MSA 21.с.2.1.300.020/015 MSA 21.s.2.1.300.020/015
¾×½ 20×15
6 152
1,05 26,7
1,7 42,2
0,154 3,91
7,5 190
3,8 97
0,51 13
2,27 1,03
19,1 16,3
MSA 21.с.2.1.300.025/020 MSA 21.s.2.1.300.025/020
1× ¾ 25×20
6,5 165
1,315 33,4
1,9 48,3
0,179 4,55
7,5 190
3,94 100
0,75 19
3,13 1,42
34,7 29,5
MSA 21.с.2.1.300.032/025 MSA 21.s.2.1.300.032/025
1 ¼ ×1 32×25
7 178
1,66 42,2
2,375 60,3
0,191 4,85
7,5 190
4,17 106
0,99 25
4,63 2,1
50 43
MSA 21.с.2.1.300.040/032 MSA 21.s.2.1.300.040/032
1 ½ ×1¼ 40×32
7,5 190
1,9 48,3
2,875 73
0,2 5,08
7,5 190
4,7 120
1,26 32
6,22 2,82
104 89
MSA 21.с.2.1.300.050/040 MSA 21.s.2.1.300.050/040
2×1 ½ 50×40
8,5 216
2,375 60,3
3,5 88,9
0,25 6,35
11,1 282
5,6 142
1,5 38
10,47 4,75
270 230
MSA 21.с.2.1.300.065/050 MSA 21.s.2.1.300.065/050
2 ½ ×2 65×50
9,5 241
2,875 73
4 101,6
0,276 7,01
12,2 311
6,2 158
1,93 49
15,65 7,1
311 265
MSA 21.с.2.1.300.080/065 MSA 21.s.2.1.300.080/065
3×2 ½ 80×65
11,12 282
3,5 88,9
5,56 141,3
0,28 7,14
12,2 311
6,5 166
2,44 62
20,94 9,5
635 540
MSA 21.с.2.1.300.100/080 MSA 21.s.2.1.300.100/080
4×3 100×80
12 305
4,5 114,32
5,56 141,3
0,312 7,92
15 382
6,6 168
2,92 74
30,2 13,7
1027 873
MSA 21.с.2.1.300.150/100 MSA 21.s.2.1.300.150/100
6×4 150×100
18 457
6,625 168,3
7 177,8
0,375 9,53
23,7 602
7,3 185
3,95 100
70,77 32,1
1635 1390
MSA 21.с.2.1.300.200/150 MSA 21.s.2.1.300.200/150
8×6 200×150
20,5 521
8,625 219,1
9,626 244,5
0,438 11,13
23,7 602
9 230
5,9 150
84,2 38,2
2380 2024
MSA 21.с.2.1.300.250/200 MSA 21.s.2.1.300.250/200
10×8 250×200
22 559
10,7 273
12,75 323,9
0,5 12,7
43,4 1102
9,5 243
7,9 201
164,2 74,5
3200 2720
ANSI Class 300 lb/kg
in/mm
Code
Note: MSA 21.c — carbon steel ball valve design MSA 21.s — stainless steel ball valve design
MSA 21.c MSA 21.s
DIMENSIONS & WEIGHT
41
Ball valves
Full bore&reduced bore
MSA 21.c MSA 21.s
TECHNICAL CHARACTERISTICS Working pressure, not higher than......20 bar (Class150), 50 bar (Class300) Working medium temperature...............from -20°F (-29°C) to +356°F (+180°C) Working medium........................MSA 21.c — water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MSA 21.s — water, gas, oil products and other including aggressive medium and neutral one for ball valve components Environment temperature...............................not less than - 20°F (- 29°C) Quantity of work cycles..................................not less than 5000 Full lifetime.....................................................not less than 30 years Pipeline connection........................................flanged end Control means................................................actuator handwheel Face-to-face dimension..................................according to ASME B16.10 Flanges connection........................................according to ASME B16.5 Pressure/temperature rating...........................according to ASME/ANSI B16.34 Testing and inspection....................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Single body all-welded ball valve. Full and reduced bore. Flanged end design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MSA 21.c – made of carbon steel. MSA 21.s – made of stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by rubber gasket rings. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name
MSA 21.c
1
Body
2
Ball
3
Flange
4
Stem
5 6
Gasket ring Ball seat
7
Seat ring
8 9 10 11
Spring washer Gasket ring Ring Handwheel
12
Bolt
13
Nut
14
Washer
42
material
MSA 21.s
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A106 ASTM A376 GradeB TP304 ASTM A240 Type 231 ASTM A376 ASTM A106 GrA TP304 ASTM A479 ASTM A182 F6a Type321 Rubber PTFE ASTM A240 ASTM A516 Gr70 Type321 AISI 9260 AISI 316 Rubber PTFE ASTM A283 GrC ASTM A240 Type ASTM A193 321 ASTM A194 2H ASTM A194 8M ASTM A240 ASTM A515 Gr70 Type321
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code MSA 21.с.1.3.150.200 MSA 21.s.1.3.150.200 MSA 21.с.1.3.150.250/200 MSA 21.s.1.3.150.250/200
NPS/DN
L
D
D1
D2
B
H
8 200
18 457
13,5 345
11,75 298,5
10,62 269,9
20 508
19,8 503
10×8 250×200
21 533
16 405
14,25 362
12,75 323,8
21,5 546
NPS/DN
L
D
D1
D2
6 150
15,88 403
12,5 320
10,62 269,9
8×6 200×150
19,75 502
15 380
8 200
19,75 502
10×8 250×20
22,38 568
Dmin
d
n
Weight
Cv/Kv
7,9 201
7/8 22,2
8
201,3 91,5
3200 2720
19,8 503
7,9 201
1 25,4
12
215,8 98,1
4300 3665
B
H
Dmin
d
n
Weight
Cv/Kv
8,5 215,9
18,9 481
18,23 463
5,9 150
7/8 22,2
12
117,46 79,3
2380 2024
13 330
10,62 269,9
20,86 530
18,23 463
5,9 150
1 25,4
12
189,6 86,2
2150 1830
15 380
13 330
10,62 269,9
20,86 530
19,8 503
7,9 201
1 25,4
12
209,44 95,2
3200 2720
17,5 445
15,24 387,4
12,75 323,8
22,2 564
19,8 503
7,9 201
1 1/8 28,6
16
226,38 102,9
4300 3665
ANSI Class 300 lb/kg
in/mm
Code MSA 21.с.1.3.300.150 MSA 21.s.1.3.300.150 MSA 21.с.1.3.300.200/150 MSA 21.s.1.3.300.200/150 MSA 21.с.1.3.300.200 MSA 21.s.1.3.300.200 MSA 21.с.1.3.300.250/200 MSA 21.s.1.3.300.250/200
Note: MSA 21.c — carbon steel ball valve design MSA 21.s — stainless steel ball valve design
MSA 21.c MSA 21.s
DIMENSIONS & WEIGHT
43
Ball valves
Full bore&reduced bore
MSA 21.c MSA 21.s
TECHNICAL CHARACTERISTICS Working pressure, not higher than....................20 bar (Class150), 50 bar (Class300) Working medium temperature...........................from -20°F (-29°C) to +356°F (+180°C) Working medium..........................MSA 21.c — water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MSA 21.s — water, gas, oil products and other media, including aggressive ones, neutral to ball valve parts materials Environment temperature..................................not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000 Full lifetime.........................................................not less than 30 years Pipeline connection............................................welding ends Control means....................................................actuator handwheel End-to-end dimension........................................according to ASME B16.10 Butt welding end................................................according to ASME B16.25 Pressure/ temperature rating.............................according to ASME/ANSI B16.34 Testing and inspection.......................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous medium flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Single body all-welded ball valve. Full and reduced bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MSA 21.c – made of carbon steel. MSA 21.s – made of stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by rubber gasket rings. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name
material
MSA 21.c
1
Body
2 3
Ball End connection
4
Stem
5 6
Gasket ring Ball seat
7
Seat ring
8 9 10 11
Spring washer Gasket ring Ring Handwheel
12
Bolt
13
Nut
14
Washer
44
MSA 21.s
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A106 ASTM A376 GradeB TP304 ASTM A240 Type 231 ASTM A376 ASTM A106 GrA TP304 ASTM A479 ASTM A182 F6a Type 321 Rubber PTFE ASTM A240 ASTM A516 Gr70 Type 321 AISI 9260 AISI 316 Rubber PTFE ASTM A283 GrC ASTM A240 ASTM A193 Type 321 ASTM A194 2H ASTM A194 8M ASTM A240 ASTM A515 Gr70 Type 321
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code MSA 21.с.2.3.150.200 MSA 21.s.2.3.150.200 MSA 21.с.2.3.150.250/200 MSA 21.s.2.3.150.250/200
NPS/DN
L
D
A
T
B
H
Dmin
Weight
Cv/Kv
8 200
20,5 521
8,625 219,1
12,75 323,9
0,322 8,18
21,25 540
19,8 503
7,9 201
193,6 88,0
3200 2720
10×8 250×200
22 559
10,7 273
12,75 323,9
0,34 8,74
22,0 559
19,8 503
7,9 201
208,56 94,8
3200 2720
NPS/DN
L
D
A
T
B
H
Dmin
Weight
Cv/Kv
6 150
18 457
6,625 168,3
9,626 244,5
0,375 9,53
20 508
18,23 463
5,9 150
126,5 57,5
2380 2024
8×6 200×150
20,5 521
8,625 219,1
9,626 244,5
0,438 11,13
21,25 540
18,23 463
5,9 150
136,2 61,9
2150 1830
8 200
20,5 521
8,625 219,1
12,75 323,9
0,438 11,13
21,25 540
19,8 503
7,9 201
196,9 89,5
3200 2720
10×8 250×200
22 559
10,7 273
12,75 323,9
0,5 12,7
22,0 559
19,8 503
7,9 201
216,0 98,2
4300 3665
ANSI Class 300 lb/kg
in/mm
Code MSA 21.с.2.3.300.150 MSA 21.s.2.3.300.150 MSA 21.с.2.3.300.200/150 MSA 21.s.2.3.300.200/150 MSA 21.с.2.3.300.200 MSA 21.s.2.3.300.200 MSA 21.с.2.3.300.250/200 MSA 21.s.2.3.300.250/200
Note: MSA 21.c — carbon steel ball valve design MSA 21.s — stainless steel ball valve design
MSA 21.c MSA 21.s
DIMENSIONS & WEIGHT
45
Ball valves
Lightweight reduced bore
MSA 22.c MSA 22.s
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA
Working pressure, not higher than.....................20 bar (Class150), 50 bar (Class300) Working medium temperature...........................from -20°F (-29°C) to +356°F (+180°C) Working medium..........................MSA 22.c — water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve components MSA 22.s — water, gas, oil products and other media, including aggressive ones, neutral to ball valve parts materials Environment temperature.................................not less than - 20°F (- 29°C) Quantity of work cycles....................................not less than 5000 Full lifetime......................................................not less than 30 years Pipeline connection.........................................welding ends Control means.................................................handle Butt welding end..............................................according to ASME B16.25 Pressure/ temperature rating...........................according to ASME/ANSI B16.34 Testing and inspection.....................................according to API 6D, API 598
Welding end lightweight all-welded ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous media flow. Ball valves made of stainless steel can be used in food industry. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters DESIGN Lightweight single body all-welded ball valve. Reduced bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenance-free. Design types: MSA 22.c – made of carbon steel. MSA 22.s – made of stainless steel. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name
material
MSA 22.c
1
Body
2 3
Ball End connection
4
Stem
5
Press-on bush
6
Ball seat
7
Seat ring
8 9 10 11 12 13
Spring washer Stem seat Gasket ring Ring Handle Nut
14
Washer
46
MSA 22.s
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A106 ASTM A376 GradeB TP304 ASTM A240 Type 231 ASTM A376 ASTM A106 GrA TP304 ASTM A479 ASTM A182 F6a Type321 ASTM A479 ASTM A696 Gr70 Type321 PTFE ASTM A240 ASTM A516 Gr70 Type321 AISI 9260 AISI 316 PTFE Rubber PTFE ASTM A283 GrC ASTM A194 2H ASTM A194 8M ASTM A240 ASTM A106 GrA Type321
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
T*
L1
H
Dmin
kg
NPS/DN
L
D
A
Weight
MSA 22.с.2.1.150.065/050 MSA 22.s.2.1.150.065/050
2 ½ ×2 65×50
14,2 360
2,9 73
4,0 101,6
0,25 6,35
12,2 311
6,2 158
1,9 49
14,77 6,7
311 265
MSA 22.с.2.1.150.080/065 MSA 22.s.2.1.150.080/065
3×2 ½ 80×65
11,2 370
3,5 88,9
5,0 127
0,25 6,35
12,2 311
6,5 166
2,4 62
20,06 9,1
635 540
MSA 22.с.2.1.150.100/080 MSA 22.s.2.1.150.100/080
4×3 100×80
15,4 390
4,5 114,3
6,0 152,4
0,28 7,14
15,0 382
6,6 168
2,9 74
28,88 13,1
1027 873
MSA 22.с.2.1.150.150/100 MSA 22.s.2.1.150.150/100
6×4 150×100
15,4 390
6,6 168,3
7,0 177,8
0,32 8,18
23,7 602
7,3 185
3,9 100
63,71 28,9
1635 1390
MSA 22.с.2.1.150.200/150 MSA 22.s.2.1.150.200/150
8×6 200×150
15,4 390
8,6 219,1
9,6 244,5
0,34 8,74
23,7 602
9,1 230
5,9 150
84,88 38,5
2380 2024
MSA 22.с.2.1.150.250/200 MSA 22.s.2.1.150.250/200
10×8 250×200
24,8 630
10,7 273
12,8 323,9
0,38 9,53
43,4 1102
9,6 243
7,9 201
136,69 62
3200 2720
ANSI Class 300 lb/kg
in/mm
Code
NPS/DN
L
D
A
½ 15
9,1 230
0,8 21,33
1,5 38
MSA 22.с.2.1.300.020/015 MSA 22.s.2.1.300.020/015
¾×½ 20×15
9,1 230
1,1 26,75
MSA 22.с.2.1.300.025/020 MSA 22.s.2.1.300.025/020
1× ¾ 25×20
9,1 230
MSA 22.с.2.1.300.032/025 MSA 22.s.2.1.300.032/025
1 ¼ ×1 32×25
MSA 22.с.2.1.300.040/032 MSA 22.s.2.1.300.040/032 MSA 22.с.2.1.300.050/040 MSA 22.s.2.1.300.050/040
MSA 22.с.2.1.300.015 MSA 22.s.2.1.300.015
T*
kg
L1
H
Dmin
0,15 3,73
7,5 190
3,8 97
0,5 13
1,98 0,9
19,1 16,3
1,7 42,2
0,18 4,55
7,5 190
3,8 97
0,5 13
2,27 1,03
19,1 16,3
1,3 33,4
1,9 48,3
0,22 5,54
7,5 190
3,9 100
0,7 19
3,13 1,42
34,7 29,5
10,2 260
1,7 42,4
2,4 60,3
0,25 6,35
7,5 190
4,2 106
1,0 25
4,63 2,1
50 43
1 ½ ×1¼ 40×32
10,2 260
1,9 48,3
2,9 73
0,25 6,35
7,5 190
4,7 120
1,3 32
6,22 2,82
104 89
2×1 ½ 50×40
11,8 300
2,4 60,3
2,9 73
0,28 7,01
11,1 282
5,6 142
1,5 38
10,47 4,75
270 230
Note: MSA 22.c — carbon steel ball valve design. MSA 22.s — stainless steel ball valve design. End-to-end dimension may be changed by agreement with the client. *dimension T may be changed by agreement with the client.
Weight
Cv/Kv
Cv/Kv
MSA 22.c MSA 22.s
DIMENSIONS & WEIGHT
47
Ball valves
Full&Reduced bore
MSA 23.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than.........................20 bar (Class150) Working medium temperature................................from -20°F (-29°C) to +356°F (+180°C) Application..............................................................for underground installation on the pipelines in gas distribution systems transporting natural gas, air, neutral gases Environment temperature.......................................not less than - 20°F (- 29°C) Quantity of work cycles..........................................not less than 5000 Full lifetime............................................................not less than 30 years Pipeline connection...............................................welding ends Control means........................................................handle End-to-end dimension............................................according to ASME B16.10 Butt welding ends...................................................according to ASME B16.25 Pressure/ temperature rating.................................according to ASME/ANSI B16.34 Testing and inspection...........................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Welding end gas ball valves with heavier duty insulation are designated for underground installation on the pipelines in gas distribution systems as a locking device blocking media flow. DESIGN Single body all-welded ball valve with extended stem. Full and reduced bore. Welding end design. All body component parts are joined by welding. Ball valve is maintenance-free. Heavier duty insulation design. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14
48
Body Ball Stem Stem extension Press-on bush Ball seat Seat ring Spring washer Stem seat Gasket ring Ring Handle Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A106 GradeB ASTM A240 Type 231 ASTM A182 F6a ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE Rubber PTFE ASTM A283 GrC ASTM A194 2H ASTM A106 GrA
We reserve the right to make modification without prior notice.
ANSI Class 150
kg lb/kg
in/mm
NPS/DN
L
D
A
T
L1
MSA 23.с.2.1.150.040
1½ 40
7,5 190
1,9 48,3
3,5 88,9
0,2 5,08
MSA 23.с.2.1.150.050
2 50
8,5 216
2,375 60,3
4 101,6
MSA 23.с.2.1.150.065
2½ 65
9,5 241
2,875 73
MSA 23.с.2.1.150.080
3 80
11,12 282
MSA 23.с.2.1.150.100
4 100
MSA 23.с.2.1.150.150 MSA 23.с.2.1.150.200
H
Dmin
Weight
Cv/Kv
11,1 282
1,5 38
9 4,1
270 230
0,218 5,54
12,2 311
1,93 49
12,54 5,7
311 265
5,56 141,3
0,25 6,35
12,2 311
2,44 62
18 8,2
635 540
3,5 88,9
5,56 141,3
0,25 6,35
15 382
2,92 74
20 9,1
1027 873
12 305
4,5 114,3
7 177,8
0,281 7,14
23,7 602
3,95 100
34,54 15,7
1635 1390
6 150
18 457
6,625 168,3
9,626 244,5
0,28 7,11
23,7 602
5,9 150
66,9 30,4
2380 2024
8 200
20,5 521
8,625 219,1
12,75 323,9
0,322 8,18
43,4 1102
7,9 201
141,5 64,3
3200 2720
NPS/DN
L
D
A
T
L1
Dmin
Weight
Cv/Kv
MSA 23.с.2.1.300.040/032
1 ½× 1¼ 40/32
7,5 190
1,9 48,3
2,875 73
0,2 5,08
7,5 190
1,26 32
6,22 2,82
104 89
MSA 23.с.2.1.300.050/040
2×1½ 50×40
8,5 216
2,4 60,3
3,5 88,9
0,218 5,54
11,1 282
1,5 38
9,94 4,51
270 230
MSA 23.с.2.1.300.065/050
2½×2 65×50
9,5 241
2,9 73
4 101,6
0,25 6,35
12,2 311
1,93 49
14,77 6,7
311 265
MSA 23.с.2.1.300.080/065
3×2½ 80×65
11,12 282
3,5 88,9
5,56 141,3
0,25 6,35
12,2 311
2,44 62
20,06 9,1
635 540
MSA 23.с.2.1.300.100/080
4×3 100×80
12 305
4,5 114,3
5,56 141,3
0,281 7,14
15 382
2,92 74
28,88 13,1
1027 873
MSA 23.с.2.1.300.150/100
6×4 150×100
18 457
6,6 168,3
7 177,8
0,28 7,11
23,7 602
3,95 100
63,71 28,9
1635 1390
MSA 23.с.2.1.300.200/150
8×6 200×150
20,5 521
8,6 219,1
9,626 244,5
0,322 8,18
23,7 602
5,9 150
72,3 32,8
2380 2024
MSA 23.с.2.1.300.250/200
10×8 250×200
22 559
10,7 273
12,75 323,9
0,34 8,74
43,4 1102
7,9 201
81,4 36,9
3200 2720
by agreement with the client
Code
ANSI Class 300
kg lb/kg
in/mm
H
by agreement with the client
Code
MSA 23.c
DIMENSIONS & WEIGHT
Note: Weight is specified without stem extension H — by agreement with the client
49
Ball valves
Full bore
MSA 24.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C) Application........................................................for installation in heat supply and cooling systems and industrial sector pipelines transporting nontoxic and non-aggressive media, neutral to ball valve parts materials Environment temperature................................not less than - 20°F (- 29°C) Quantity of work cycles...................................not less than 5000 Full lifetime.....................................................not less than 30 years Pipeline connection........................................flanged ends Control means.................................................handle Face-to-face dimension..................................according to ASME B16.10 Flanges connection........................................according to ASME B16.5 Pressure/ temperature rating.........................according to ASME/ANSI B16.34 Testing and inspection...................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA Flanged end ball valves in polyurethane foam insulation for trenchless laying are designated for installation on the pipelines for application in heat supply and cooling systems in heat-power engineering and other industries as a locking device fully blocking liquid media low.
DESIGN Single body all-welded ball valve with extended stem. Full bore. Flanged end design. All body component parts are joined by welding. The body of the ball valve has polyurethane foam insulation. Ball valve is maintenance-free. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position in any place available for exploitation with working medium flow applied from any direction MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14
50
Body Ball Stem Stem extension Press-on bush Ball seat Seat ring Spring washer Stem seat Gasket ring Ring Handle Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A106 GradeB ASTM A240 Type 231 ASTM A182 F6a ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE Rubber PTFE ASTM A283 GrC ASTM A194 2H ASTM A106 GrA
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
NPS/DN
L
D
D1
D2
L1
B
MSA 24.с.1.1.150.065
2½ 65
7,5 190
7 180
5,5 139,7
4,12 104,8
12,2 311
16 406
MSA 24.с.1.1.150.080
3 80
8 203
7,5 190
6 152,4
5 127
15 382
19 484
MSA 24.с.1.1.150.100
4 100
9 229
9 230
7,5 190,5
6,19 157,2
23,7 602
28,2 717
MSA 24.с.1.1.150.150
6 150
15,5 394
11 280
9,5 241,3
8,5 215,9
23,7 602
31,4 799
MSA 24.с.1.1.150.200
8 200
18 457
13,5 345
11,75 298,5
10,62 269,9
43,4 1102
52,4 1330
NPS/DN
L
D
D1
D2
L1
B
MSA 24.с.1.1.300.015
½ 15
5,5 140
3,75 95
2,62 66,7
1,38 34,9
7,5 190
10,2 260
MSA 24.с.1.1.300.020
¾ 20
6 152
4,62 115
3,25 82,6
1,69 42,9
7,5 190
10,5 266
MSA 24.с.1.1.300.025
1 25
6,5 165
4,88 125
3,5 88,9
2 50,8
7,5 190
10,7 273
MSA 24.с.1.1.300.032
1¼ 32
7 178
5,25 135
3,88 98,4
2,5 63,5
7,5 190
11 279
MSA 24.с.1.1.300.040
1½ 40
7,5 190
6,12 155
4,5 114
2,88 73
11,1 282
14,8 377
MSA 24.с.1.1.300.050
2 50
8,5 216
6,5 165
5 127
3,62 92,1
12,2 311
16,5 419
H by agreement with the client
Code
Dmin
d
n
Weight
Cv/Kv
2,44 62
3/4 19
4
23,5 10,7
635 540
2,92 74
3/4 19
4
32,3 14,7
1027 873
3,95 100
3/4 19
8
68,2 31
1635 1390
5,9 150
7/8 22,2
8
124,5 55,6
2380 2024
7,9 201
7/8 22,2
8
156,8 71,3
3200 2720
Dmin
d
n
Weight
Cv/Kv
0,51 13
5/8 15,9
4
3,96 1,8
19,1 16,3
0,75 19
3/4 19
4
6,8 3,1
34,7 29,5
0,99 25
3/4 19
4
9,5 4,3
50 43
1,26 32
3/4 19
4
13,4 6,1
104 89
1,5 38
7/8 22,2
4
16 7,3
270 230
1,93 49
3/4 19
8
23,1 10,5
311 265
ANSI Class 300 lb/kg
in/mm
H
by agreement with the client
Code
MSA 24.c
DIMENSIONS & WEIGHT
Note: Dimensions without PU foam insolation. Weight is specified without stem extension. H — by agreement with the client.
51
Ball valves
Full bore
MSA 24.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C) Application........................................................for installation in heat supply and cooling systems and industrial sector pipelines transporting nontoxic and non-aggressive media, neutral to ball valve parts materials Environment temperature.................................not less than - 20°F (- 29°C) Quantity of work cycles....................................not less than 5000 Full lifetime......................................................not less than 30 years Pipeline connection.........................................welding ends Control means.................................................handle End-to-end dimension.....................................according to ASME B16.10 Butt welding ends............................................according to ASME B16.25 Pressure/ temperature rating..........................according to ASME/ANSI B16.34 Testing and inspection....................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves in polyurethane foam insulation for trenchless laying are designated for installation on the pipelines for application in heat supply and cooling systems in heat-power engineering and other industries as a locking device fully blocking liquid media flow
DESIGN Single body all-welded ball valve with extended stem. Full bore. Welded end design. All body component parts are joined by welding. The body of the ball valve has polyurethane foam insulation. Ball valve is maintenance-free. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position in any place available for exploitation with working medium flow applied from any direction
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14
52
Body Ball Stem Stem extension Press-on bush Ball seat Seat ring Spring washer Stem seat Gasket ring Ring Handle Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A106 GradeB ASTM A240 Type 231 ASTM A182 F6a ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE Rubber PTFE ASTM A283 GrC ASTM A194 2H ASTM A106 GrA
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
MSA 24.с.2.1.150.080 MSA 24.с.2.1.150.100 MSA 24.с.2.1.150.150 MSA 24.с.2.1.150.200
Dmin
Weight
Cv/Kv
12,2 311 15 382 23,7 602 23,7 602 43,4 1102
by agreement with the client
MSA 24.с.2.1.150.065
H
2,44 62 2,92 74 3,95 100 5,9 150 7,9 201
18 8,2 20 9,1 34,54 15,7 66,9 30,4 141,5 64,3
635 540 1027 873 1635 1390 2380 2024 3200 2720
T
L1
H
Dmin
Weight
Cv/Kv
0,147 3,73 0,154 3,91 0,179 4,55 0,191 4,85 0,2 5,08 0,25 6,35
7,5 190 7,5 190 7,5 190 7,5 190 11,1 282 12,2 311
by agreement with the client
in/mm
Code
NPS/DN
L
D
A
T
L1
2½ 65 3 80 4 100 6 150 8 200
9,5 241 11,12 282 12 305 18 457 20,5 521
2,875 73 3,5 88,9 4,5 114,3 6,625 168,3 8,625 219,1
5,56 141,3 5,56 141,3 7 177,8 9,626 244,5 12,75 323,9
0,25 6,35 0,25 6,35 0,281 7,14 0,28 7,11 0,322 8,18
NPS/DN
L
D
A
½ 15 ¾ 20 1 25 1¼ 32 1½ 40 2 50
5,5 140 6 152 6,5 165 7 178 7,5 190 8,5 216
0,84 21,33 1,05 26,75 1,315 33,4 1,66 42,2 1,9 48,3 2,375 60,3
1,86 42,2 1,9 48,3 2,375 60,3 2,875 73 3,5 88,9 4 101,6
0,51 13 0,75 19 0,99 25 1,26 32 1,5 38 1,93 49
2,09 0,95 3,3 1,5 4,62 2,1 7 3,2 9 4,1 5,9 19,4
19,1 16,3 34,7 29,5 50 43 104 89 270 230 311 265
ANSI Class 300 lb/kg
in/mm
Code MSA 24.с.2.1.300.015 MSA 24.с.2.1.300.020 MSA 24.с.2.1.300.025 MSA 24.с.2.1.300.032 MSA 24.с.2.1.300.040 MSA 24.с.2.1.300.050
MSA 24.c
DIMENSIONS & WEIGHT
Note: Dimensions without PU foam insolation. Weight is specified without stem extension. H — by agreement with the client.
53
Ball valves
Reduced bore
MSA 24.c
TECHNICALCHARACTERISTICS CHARACTERISTICS TECHNICAL Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F (+180°C) Application........................................................for installation in heat supply and cooling systems and industrial sector pipelines transporting nontoxic and non-aggressive media, neutral to ball valve parts materials Environment temperature.................................not less than - 20°F (- 29°C) Quantity of work cycles....................................not less than 5000 Full lifetime......................................................not less than 30 years Pipeline connection.........................................welding ends Control means.................................................handle End-to-end dimension.....................................according to ASME B16.10 Butt welding ends............................................according to ASME B16.25 Pressure/ temperature rating..........................according to ASME/ANSI B16.34 Testing and inspection....................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves in polyurethane foam insulation for trenchless laying are designated for installation on the pipelines for application in heat supply and cooling systems in heat-power engineering and other industries as a locking device fully blocking liquid media flow
DESIGN Single body all-welded ball valve with extended stem. Reduced bore. Welded end design. All body component parts are joined by welding. The body of the ball valve has polyurethane foam insulation. Ball valve is maintenance-free. Free floating ball is sealed with teflon seats. Both seats are pressed to the ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. An extended stem makes remote installation of a ball valve in an inaccessible place possible with operating handle located away from the ball valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position in any place available for exploitation with working medium flow applied from any direction
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14
54
Body Ball Stem Stem extension Press-on bush Ball seat Seat ring Spring washer Stem seat Gasket ring Ring Handle Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A106 GradeB ASTM A240 Type 231 ASTM A182 F6a ASTM A182 F6a ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE Rubber PTFE ASTM A283 GrC ASTM A194 2H ASTM A106 GrA
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
L
D
A
T
L1
MSA 24.с.2.1.150.065/050
2½ ×2 65×50
9,5 241
2,9 73
4 101,6
0,25 6,35
12,2 311
MSA 24.с.2.1.150.080/065
3×2½ 80×65
11,12 282
3,5 88,9
5,56 141,3
0,25 6,35
12,2 311
MSA 24.с.2.1.150.100/080
4×3 100×80
12 305
4,5 114,3
5,56 141,3
0,281 7,14
15 382
MSA 24.с.2.1.150.150/100
6×4 150×100
18 457
6,6 168,3
7 177,8
0,28 7,11
23,7 602
MSA 24.с.2.1.150.200/150
8×6 200×150
20,5 521
8,6 219,1
9,626 244,5
0,322 8,18
23,7 602
MSA 24.с.2.1.150.250/200
10×8 250×200
22 559
10,7 273
12,75 323,9
0,34 8,74
43,4 1102
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
1,93 49
14,77 6,7
311 265
2,44 62
20,06 9,1
635 540
2,92 74
28,88 13,1
1027 873
3,95 100
63,71 28,9
1635 1390
5,9 150
72,3 32,8
2380 2024
7,9 201
81,4 36,9
3200 2720
H
Dmin
Weight
Cv/Kv
0,51 13
2,27 1,03
19,1 16,3
0,75 19
3,13 1,42
34,7 29,5
0,99 25
4,63 2,1
50 43
1,26 32
6,22 2,82
104 89
1,5 38
10,47 4,75
270 230
by agreement with the client
NPS/DN
by agreement with the client
in/mm
Code
ANSI Class 300 lb/kg
in/mm
Code
NPS/DN
MSA 24.с.2.1.300.020/015
¾×½ 20×15
6 152
1,05 26,7
1,7 42,2
0,154 3,91
7,5 190
MSA 24.с.2.1.300.025/020
1×¾ 25×20
6,5 165
1,315 33,4
1,9 48,3
0,179 4,55
7,5 190
MSA 24.с.2.1.300.032/025
1¼× 1 32×25
7 178
1,66 42,2
2,375 60,3
0,191 4,85
7,5 190
MSA 24.с.2.1.300.040/032
1 ½× 1¼ 40×32
7,5 190
1,9 48,3
2,875 73
0,2 5,08
7,5 190
MSA 24.с.2.1.300.050/040
2×1½ 50×40
8,5 216
2,375 60,3
3,5 88,9
0,25 6,35
11,1 282
MSA 24.c
DIMENSIONS & WEIGHT
Note: Dimensions without PU foam insolation. Weight is specified without stem extension. H — by agreement with the client.
55
Ball valves
Full bore
MSA 15.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than...............64 bar (Class400), 100 bar (Class600) Working medium temperature......................from - 20°F (-29°C) to +356°F (+180°C) Working medium...........................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve parts materials Environment temperature.............................not less than - 20°F (- 29°C) Quantity of work cycles................................not less than 5000 Full lifetime...................................................not less than 30 years Pipeline connection......................................flanged ends Control means..............................................handle Face-to-face dimension...............................according to ASME B16.10 Flanges connection.....................................according to ASME B16.5 Pressure/ temperature rating.......................according to ASME/ANSI B16.34 Testing and inspection.................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by spring washers. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-onbush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
56
Body Flange Ball Stem Gland housing Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Bearing sleeve Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 400
Class 600
ASTM A216 WCB ASTM A216 WCB ASTM A351 CF8M ASTM A182 F6a ASTM A216 WCB ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE PTFE Rubber PTFE Bronze ASTM A216 WCB ASTM A193 B7M ASTM A194 2H AISI 9260 ASTM A515 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 400 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
Cv/Kv
MSA 15.с.1.1.400.015
½ 15
6,5 165
3,75 95
2,62 66,7
1,38 34,9
9,8 250
13,1 332
4,3 110
0,5 13
5/8 15,9
4
24,5 11,1
19,1 16,3
MSA 15.с.1.1.400.020
¾ 20
7,5 190
4,62 115
3,25 82,6
1,69 42,9
9,8 250
13,6 345
4,3 110
0,75 19
3/4 19,05
4
27,5 12,5
34,7 29,5
MSA 15.с.1.1.400.025
1 25
8,5 216
4,88 125
3,5 88,9
2 50,8
13,8 350
18 458
4,5 115
1 25
3/4 19,05
4
32,6 14,8
50 43
MSA 15.с.1.1.400.032
1¼ 32
9 229
5,25 135
3,88 98,4
2,5 63,5
13,8 350
18,3 464
4,7 120
1,25 32
3/4 19,05
4
39,4 17,9
104 89
MSA 15.с.1.1.400.040
1½ 40
9,5 241
6,12 155
4,5 114,3
2,88 73
13,8 350
18,5 470
5,1 130
1,5 38
7/8 22,2
4
48 21,8
270 230
MSA 15.с.1.1.400.050
2 50
11,5 292
6,5 165
5 127
3,62 92,1
18,4 467
24 613
5,5 140
1,92 49
3/4 19,05
8
58,2 26,4
311 265
MSA 15.с.1.1.400.065
2½ 65
13 330
7,5 190
5,88 149,2
4,12 104,8
18,4 467
25 632
6 155
2,44 62
7/8 22,23
8
74,5 33,8
635 540
MSA 15.с.1.1.400.080
3 80
14 356
8,25 210
6,62 168,3
5 127
18,4 467
25,5 645
6,7 170
3 76
7/8 22,23
8
95,9 43,6
1027 873
MSA 15.с.1.1.400.100
4 100
16 406
10 255
7,88 200
6,19 157
24 607
32 810
7,75 196
3,94 100
1 25,4
8
115,5 52,4
1635 1390
Code
NPS/DN
L
D
D1
D2
L1
B
H
Dmin
d
n
Weight
Cv/Kv
MSA 15.с.1.1.600.015
½ 15
6,5 165
3,75 95
2,62 66,7
1,38 34,9
9,8 250
13,1 332
4,3 110
0,5 13
5/8 15,9
4
24,5 11,1
19,1 16,3
MSA 15.с.1.1.600.020
¾ 20
7,5 190
4,62 115
3,25 82,6
1,69 42,9
9,8 250
13,6 345
4,3 110
0,75 19
3/4 19,05
4
27,5 12,5
34,7 29,5
MSA 15.с.1.1.600.025
1 25
8,5 216
4,88 125
3,5 88,9
2 50,8
13,8 350
18 458
4,5 115
1 25
3/4 19,05
4
32,6 14,8
50 43
MSA 15.с.1.1.600.032
1¼ 32
9 229
5,25 135
3,88 98,4
2,5 63,5
13,8 350
18,3 464
4,7 120
1,25 32
3/4 19,05
4
39,4 17,9
104 89
MSA 15.с.1.1.600.040
1½ 40
9,5 241
6,12 155
4,5 114,3
2,88 73
13,8 350
18,5 470
5,1 130
1,5 38
7/8 22,2
4
48 21,8
270 230
MSA 15.с.1.1.600.050
2 50
11,5 292
6,5 165
5 127
3,62 92,1
18,4 467
24 613
5,5 140
1,92 49
3/4 19,05
8
58,2 26,4
311 265
MSA 15.с.1.1.600.065
2½ 65
13 330
7,5 190
5,88 149,2
4,12 104,8
18,4 467
25 632
6 155
2,44 62
7/8 22,23
8
74,5 33,8
635 540
MSA 15.с.1.1.600.080
3 80
14 356
8,25 210
6,62 168,3
5 127
18,4 467
25,5 645
6,7 170
3 76
7/8 22,23
8
95,9 43,6
1027 873
MSA 15.с.1.1.600.100
4 100
17 432
10,75 275
8,5 215,9
6,19 157
24 607
32 810
7,75 196
3,94 100
1 25,4
8
117,9 53,6
1635 1390
ANSI Class 600
MSA 15.c
DIMENSIONS & WEIGHT
lb/kg
in/mm
57
Ball valves
Full bore
MSA 15.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than................64 bar (Class 400), 100 bar (Class 600) Working medium temperature.......................from -20°F (-29°C) to +356°F (+180°C) Working medium...........................................water, gas, oil products and other nontoxic and nonaggressive medium, neutral for ball valve parts materials Environment temperature..............................not less than - 20°F (- 29°C) Quantity of work cycles.................................not less than 5000 Full lifetime....................................................not less than 30 years Pipeline connection.......................................welding ends Control means...............................................handle End-to-end dimension...................................according to ASME B16.10 Butt welding ends..........................................according to ASME B16.25 Pressure/ temperature rating.........................according to ASME/ANSI B16.34 Testing and inspection...................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by spring washers. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-onbush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In an “open” state the handle is parallel to the pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
58
Body End connection Ball Stem Gland housing Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Bearing sleeve Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 400
Class 600
ASTM A216 WCB ASTM A216 WCB ASTM A351 CF8M ASTM A182 F6a ASTM A216 WCB ASTM A696 Gr70 PTFE ASTM A516 Gr70 AISI 9260 PTFE PTFE Rubber PTFE Bronze ASTM A216 WCB ASTM A193 B7M ASTM A194 2H AISI 9260 ASTM A515 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 400 lb/kg
in/mm
Code
NPS/DN
L
D
A
T
L1
H
Dmin
Weight
Cv/Kv
MSA 15.с.2.1.400.015
½ 15
6,5 165
1 26
4,1 105
0,26 6,5
9,8 250
4,3 110
0,5 13
18,3 8,3
19,1 16,3
MSA 15.с.2.1.400.020
¾ 20
7,5 190
1,3 33
4,3 110
0,28 7
9,8 250
4,3 110
0,75 19
20,9 9,5
34,7 29,5
MSA 15.с.2.1.400.025
1 25
8,5 216
1,61 41
4,5 115
0,31 8
13,8 350
4,5 115
1 25
24,5 11,1
50 43
MSA 15.с.2.1.400.032
1¼ 32
9 229
1,9 48
4,7 120
0,31 8
13,8 350
4,7 120
1,25 32
28,4 12,9
104 89
MSA 15.с.2.1.400.040
1½ 40
9,5 241
2,2 56
5,1 130
0,35 9
13,8 350
5,1 130
1,5 38
33,5 15,2
270 230
MSA 15.с.2.1.400.050
2 50
11,5 292
2,6 67
5,5 140
0,35 9
18,4 467
5,5 140
1,92 49
40,3 18,3
311 265
MSA 15.с.2.1.400.065
2½ 65
13 330
3,2 82
6,5 164
0,39 10
18,4 467
6 155
2,44 62
54,1 24,5
635 540
MSA 15.с.2.1.400.080
3 80
14 356
4 101
7,4 188
5 12,5
18,4 467
6,7 170
3 76
67,5 30,6
1027 873
MSA 15.с.2.1.400.100
4 100
16 406
5 125
9,8 250
0,49 12,5
24 607
7,75 196
3,94 100
81,1 36,8
1635 1390
NPS/DN
L
D
A
T
L1
H
Dmin
Weight
MSA 15.с.2.1.600.015
½ 15
6,5 165
1,0 26
4,1 105
0,26 6,5
9,8 250
4,3 110
0,5 13
18,3 8,3
19,1 16,3
MSA 15.с.2.1.600.020
¾ 20
7,5 190
1,3 33
4,3 110
0,28 7
9,8 250
4,3 110
0,75 19
20,9 9,5
34,7 29,5
MSA 15.с.2.1.600.025
1 25
8,5 216
1,61 41
4,5 115
0,31 8
13,8 350
4,5 115
1 25
24,5 11,1
50 43
MSA 15.с.2.1.600.032
1¼ 32
9 229
1,9 48
4,7 120
0,31 8
3,8 350
4,7 120
1,25 32
28,4 12,9
104 89
MSA 15.с.2.1.600.040
1½ 40
9,5 241
2,2 56
5,1 130
0,35 9
13,8 350
5,1 130
1,5 38
33,5 15,2
270 230
MSA 15.с.2.1.600.050
2 50
11,5 292
2,6 67
5,5 140
0,35 9
18,4 467
5,5 140
1,92 49
40,3 18,3
311 265
MSA 15.с.2.1.600.065
2½ 65
13 330
3,2 82
6,5 164
0,39 10
18,4 467
6 155
2,44 62
54,1 24,5
635 540
MSA 15.с.2.1.600.080
3 80
14 356
4 101
7,4 188
5 12,5
18,4 467
6,7 170
3 76
67,5 30,6
1027 873
MSA 15.с.2.1.600.100
4 100
17 432
5 125
9,8 250
0,49 12,5
24 607
7,75 196
3,94 100
81,1 36,8
1635 1390
ANSI Class 600 lb/kg
in/mm
Code
MSA 15.c
DIMENSIONS & WEIGHT
Cv/Kv
59
Ball valves
Full bore
MSA 15.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than................64 bar (Class400), 100 bar (Class600) Working medium temperature........................from -20°F (-29°C) to +356°F (+180°C) Working medium............................................water, gas, oil products and other nontoxic and nonagressive medium, neutral for ball valve parts materials Environment temperature..............................not less than - 20°F (- 29°C) Quantity of work cycles.................................not less than 5000 Full lifetime....................................................not less than 30 years Pipeline connection......................................flanged ends Control means..............................................actuator handwheel Face-to-face dimension................................according to ASME B16.10 Flanges connection......................................according to ASME B16.5 Pressure/ temperature rating........................according to ASME/ANSI B16.34 Testing and inspection.................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Split body ball valve. Full bore. Flanged end design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
60
Body Flange Ball Stem Gland housing Press-on bush Ball seat Seat ring Spring Body gasket Stem seat Gasket ring Ring Bearing sleeve Handwheel Bolt Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 400
Class 600
ASTM A216 WCB ASTM A216 WCB ASTM A351 CF8M ASTM A182 F6a ASTM A216 WCB ASTM A696 Gr70 PTFE ASTM A516 Gr70 ASTM B637 Gr688 PTFE PTFE Rubber PTFE Bronze ASTM A283 GrC ASTM A193 B7M ASTM A194 2H AISI 9260
We reserve the right to make modification without prior notice.
ANSI Class 400 lb/kg
in/mm
Code
NPS/DN
L
D
D1
D2
H
Dmin
d
n
Weight
Cv/Kv
MSA 15.с.1.3.400.150
6 150
19,5 495
12,5 320
10,62 269,9
8,5 215,9
12,7 322
5,9 150
1 25,4
12
592 268
2380 2024
MSA 15.с.1.3.400.200
8 200
23,5 597
15 380
13 330
10,62 269,9
14,2 361
7,91 201
1 1/8 28,58
12
834 378
3200 2720
Code
NPS/DN
L
D
D1
D2
H
Dmin
d
n
Weight
Cv/Kv
MSA 15.с.1.3.600.150
6 150
22 559
14 355
11,5 292,1
8,5 215,9
12,7 322
5,9 150
1 1/8 28,58
12
643,5 292,5
2380 2024
MSA 15.с.1.3.600.200
8 200
26 660
16,5 420
13,75 349,2
10,62 269,9
14,2 361
7,91 201
1 1/4 31,75
12
888,4 403,8
3200 2720
ANSI Class 600 lb/kg
in/mm
MSA 15.c
DIMENSIONS & WEIGHT
61
Ball valves
Full bore
MSA 15.c
TECHNICAL CHARACTERISTICS Working pressure, not higher than.................64 bar (Class400), 100 bar (Class600) Working medium temperature........................from - 20°F (-29°C) to +356°F (+180°C) Working medium.............................................water, gas, oil products and other nontoxic and nonagressive medium, neutral for ball valve parts materials Environment temperature...............................not less than - 20°F (- 29°C) Quantity of work cycles..................................not less than 5000 Full lifetime.....................................................not less than 30 years Pipeline connection........................................welding ends Control means................................................actuator handwheel End-to-end dimension....................................according to ASME B16.10 Butt welding end connection...........................according to ASME B16.25 Pressure/ temperature rating..........................according to ASME/ANSI B16.34 Testing and inspection....................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Welding end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking device fully blocking liquid and gaseous media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Split body ball valve. Full bore. Welding end design. Ball valve body is made of carbon steel. Shutoff ball is settled on a support. Antistatic design. Teflon seats in metallic seat rings are pressed against the shutoff ball by springs. Emergency system of sealing lubricant injection. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on-bush. Teflon gaskets are used to seal the body component parts. Draining plug for letting the water and condensate out of valve body. Pressure relieving valve. Ball valve control is performed manually by rotating of the actuator handwheel. State of the shutoff ball is controlled by a position indicator. Ball valve is intended to be installed on the pipeline in horizontal position with working medium flow applied from any direction. MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
62
Body End connection Ball Stem Gland housing Press-on bush Ball seat Seat ring Spring Body gasket Stem seat Gasket ring Ring Bearing sleeve Handwheel Bolt Nut Washer
material
PRESSURE/TEMPERATURE RATING Class 400
Class 600
ASTM A216 WCB ASTM A216 WCB ASTM A351 CF8M ASTM A182 F6a ASTM A216 WCB ASTM A696 Gr70 PTFE ASTM A516 Gr70 ASTM B637 Gr688 PTFE PTFE Rubber PTFE Bronze ASTM A283 GrC ASTM A193 B7M ASTM A194 2H ANSI 9260
We reserve the right to make modification without prior notice.
ANSI Class 400 lb/kg
in/mm
Code
NPS/DN
L
D
A
T
H
Dmin
Weight
Cv/Kv
MSA 15.с.2.3.400.150
6 150
19,5 495
6,9 176
14,2 360
0,51 13
12,7 322
5,9 150
497,6 225,7
2380 2024
MSA 15.с.2.3.400.200
8 200
23,5 597
9,3 236
17,3 440
0,69 17,5
14,2 361
7,91 201
759,7 344,6
3200 2720
NPS/DN
L
D
A
T
H
Dmin
Weight
Cv/Kv
ANSI Class 600 lb/kg
in/mm
Code MSA 15.с.2.3.600.150
6 150
22 559
6,9 176
14,2 360
0,51 13
12,7 322
5,9 150
497,6 225,7
2380 2024
MSA 15.с.2.3.600.200
8 200
26 660
9,3 236
17,3 440
0,69 17,5
14,2 361
7,91 201
759,7 344,6
3200 2720
MSA 15.c
DIMENSIONS & WEIGHT
63
Ball valves
Full bore
MSA 11.s
TECHNICAL CHARACTERISTICS Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300) Working medium temperature..........................from -20°F (-29°C) to +356°F(+180°C) Working medium..............................................water, gas, oil products and other including aggressive medium and neutral one for ball valve parts materials Environment temperature................................not less than - 20°F (- 29°C) Quantity of work cycles....................................not less than 5000 Full lifetime......................................................not less than 30 years Pipeline connection..........................................flanged ends Control means.................................................handle Face-to-face dimension...................................according to ASME B16.10 Flanges connection.........................................according to ASME B16.5 Pressure/ temperature rating...........................according to ASME/ANSI B16.34 Testing and inspection....................................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Flanged end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas, food and other industries as a locking device fully blocking liquid and gaseous as well as aggressive working media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Split body ball valve. Full bore. Flanged end design. Cast ball valve body is made of stainless steel. The body is composed of two split parts. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Teflon seats in metallic seat rings are pressed against the shutoff ball by spring washers. Teflon gaskets are used to seal the body component parts. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11
Body Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring
12
Handle
13 14 15 16
Stud Nut Washer Washer
64
material
PRESSURE/TEMPERATURE RATING Class 150
Class 300
ASTM A351 CF8M ASTM A351 CF8M ASTM A479 Type321 ASTM A479 Type321 PTFE ASTM A240 Type321 AISI 316 PTFE PTFE Rubber PTFE ASTM A216 WCB (or ASTM A351 CF8M) ASTM A193 B8M ASTM A194 8M AISI 9260 ASTM A240 Type321
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code MSA 11.s.1.1.150.015 MSA 11.s.1.1.150.020 MSA 11.s.1.1.150.025 MSA 11.s.1.1.150.032 MSA 11.s.1.1.150.040 MSA11.s.1.1.150.050 MSA 11.s.1.1.150.065 MSA 11.s.1.1.150.080 MSA 11.s.1.1.150.100 MSA 11.s.1.1.150.150 MSA 11.s.1.1.150.200
NPS/DN
L
D
½ 15 ¾ 20 1 25 1¼ 32 1½ 40 2 50 2½ 65 3 80 4 100 6 150 8 200
4,25 108 4,62 117 5 127 5,5 140 6,5 165 7 178 7,5 190 8 203 9 229 15,5 394 18 457
3,5 90 3,88 100 4,25 110 4,62 115 5 125 6 150 7 180 7,5 190 9 230 11 280 13,5 345
NPS/DN
L
D
½ 15 ¾ 20 1 25 1¼ 32 1½ 40 2 50 2½ 65 3 80 4 100 6 150 8 200
5,5 140 6 152 6,5 165 7 178 7,5 190 8,5 216 9,5 241 11,12 282 12 305 15,88 403 19,75 502
3,75 95 4,62 115 4,88 125 5,25 135 6,12 155 6,5 165 7,5 190 8,25 210 10 255 12,5 320 15 380
D1 2,38 60,3 2,75 69,9 3,12 79,4 3,5 88,9 3,88 98,4 4,75 120,7 5,5 139,7 6 152,4 7,5 190,5 9,5 241,3 11,5 298,5
D2
L1
1,38 34,9 1,69 42,9 2 50,8 2,5 63,5 2,88 73 3,62 92,1 4,12 104,8 5 127 6,19 157,2 8,5 215,9 10,62 269,9
7,5 190 7,5 190 7,5 190 7,5 190 11,1 282 12,2 311 12,2 311 15 382 23,7 602 23,7 602 43,6 1108
B 9,21 234 9,37 238 9,45 240 13,98 355 14,4 365 15,7 400 16 406 19 484 28,2 717 31,4 799 52,4 1330
H 3,19 81 3,31 84 3,54 90 4,06 103 4,33 110 4,53 115 4,92 125 5,11 130 5,7 145 7,48 190 8,07 205
Dmin 0,51 13 0,75 19 0,99 25 1,26 32 1,5 38 1,93 49 2,44 62 2,92 74 3,95 100 5,9 150 7,9 201
d 5/8 15,9 5/8 15.9 5/8 15,9 5/8 15,9 5/8 15,9 3/4 19 3/4 19 3/4 19 3/4 19 7/8 22,2 7/8 22,2
n 4 4 4 4 4 4 4 4 8 8 8
Weight
Cv/Kv
8,38 3,8 10,14 4,6 12,35 5,6 19,62 8,9 23,58 10,7 33,4 15,15 42,1 19,1 65,7 29,8 82,45 37,4 105,16 47,7 209,4 95
19,1 16,3 34,7 29,5 50 43 104 89 270 230 311 265 635 540 1027 873 1635 1390 2380 2024 3200 2720
ANSI Class 300 lb/kg
in/mm
Code MSA 11.с.1.1.300.015 MSA 11.с.1.1.300.020 MSA 11.с.1.1.300.025 MSA 11.с.1.1.300.032 MSA 11.s.1.1.300.040 MSA 11.s.1.1.300.050 MSA 11.s.1.1.300.065 MSA 11.s.1.1.300.080 MSA 11.s.1.1.300.100 MSA 11.s.1.1.300.150 MSA 11.s.1.1.300.200
D1
D2
L1
2,62 66,7 3,25 82,6 3,5 88,9 3,88 98,4 4,5 114 5 127 5,88 149,2 6,62 168,3 7,88 200 10,62 269,9 13 330
1,38 34,9 1,69 42,9
7,5 190 7,5 190 7,5 190 7,5 190 11,1 282 12,2 311 12,2 311 15 382 23,7 602 23,7 602 43,6 1108
2 50,8 2,5 63,5 2,88 73 3,62 92,1 4,12 104,8 5 127 6,19 157,2 8,5 215,9 10,62 269,9
MSA 11.s
DIMENSIONS & WEIGHT
B 9,21 234 9,37 238 9,45 240 13,98 355 14,8 377 16,5 419 17 432 20,6 523 29,7 755 31,7 804 50,8 1292
H 3,19 81 3,31 84 3,54 90 4,06 103 4,33 110 4,53 115 4,92 125 5,11 130 5,7 145 7,48 190 8,07 205
Dmin 0,51 13 0,75 19 0,99 25 1,26 32 1,5 38 1,93 49 2,44 62 2,92 74 3,95 100 5,9 150 7,9 201
d
n
5/8 15,9
4
3/4 19
4
3/4 19
4
3/4 19
4
7/8 22,2 3/4 19 7/8 22,2 7/8 22,2 7/8 22,2 7/8 22,2 1 25,4
4 8 8 8 8 12 12
Weight
Cv/Kv
9,04 4,1 10,58 4,8 13,23 6,0 21,61 9,8 27,99 12,7 29,7 17,25 49,16 22,3 65,69 29,8 91,27 41,4 114,2 51,8 227,07 103
19,1 16,3 34,7 29,5 50 43 104 89 270 230 311 265 635 540 1027 873 1635 1390 2380 2024 3200 2720
65
Ball valves
Full bore&reduced bore
MSA 21.c.4.1 MSA 21.s.4.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than..........20 bar(Class150), 50 bar(Class300) Working medium temperature.................from -20°F (-29°C) to +356°F(+180°C) Working medium......................................MSA 21.c.4.1 — water, gas, oil products and other nontoxic and non-aggressive media, neutral for ball valve parts materials MSA 21.s.4.1 — water, gas, oil products and other including aggressive medium and neutral one for ball valve parts materials Environment temperature........................not less than - 20°F (- 29°C) Quantity of work cycles...........................not less than 5000 Full lifetime..............................................not less than 30 years Pipeline connection..................................threaded ends Control means..........................................handle Pressure/ temperature rating...................according to ASME/ANSI B16.34 Testing and inspection..............................according to API 6D, API 598 DESIGNATION AND APPLICATION AREA Threaded end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas, food and other industries as a locking device fully blocking liquid and gaseous working media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Single body ball valve. Full and reduced bore. Threaded end design. All body components are joined by welding. Ball valve is maintenance-free. Design types: MSA 21.c.4.1 – made of carbon steel. MSA21.s.4.1 – made of stainless steel Free floating ball is sealed with teflon seats that are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name material
MSA 21.c.4.1
MSA 21.s.4.1
ASTM A106 GradeB
Body
2
Ball
3
Stem
ASTM A182 F6a
ASTM A479 Type321
4
Press-on bush
ASTM A696 Gr70
ASTM A479 Type321
ASTM A351 CF8M
5
Ball seat
6
Seat ring
7
Spring washer
8
Stem seat
PTFE Rubber
9
Gasket ring Ring
11
Handle
PTFE ASTM A516 Gr70
ASTM A240 Type321
AISI 9260
AISI 316
PTFE ASTM A283 GrC
12
Nut
ASTM A194 2H
ASTM A194 8M
13
Washer
ASTM A106 GrA
ASTM A240 Type321
66
Class 300
ASTM A376 TP304
1
10
PRESSURE/TEMPERATURE RATING Class 150
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN RG (NPSC or NPTC)
L
I
A
L1
B
H
Dmin
Weight
Cv/Kv
½ 15
1/2-18NPSC
3 75
0,59 15
1,86 42,2
6,4 162
7,87 200
3,4 87
0,51 13
2 0,9
19,1 16,3
MSA 21.с.4.1.150.020/015 MSA 21.s.4.1.150.020/015
¾ ×½ 20×15
3/4-14NPSC
3,15 80
0,64 16,3
1,86 42,2
6,4 162
7,95 202
3,4 87
0,51 13
2 0,92
12 10
MSA 21.с.4.1.150.025/020 MSA 21.s.4.1.150.025/020
1×¾ 25×20
1-11,5NPSC
3,5 90
0,75 19,1
1,9 48,3
6,4 162
8,15 207
3,7 94
0,75 19
2,3 1,03
24 21
MSA 21.с.4.1.150.032/025 MSA 21.s.4.1.150.032/025
1¼ ×1 32×25
1 1/4-11,5NPSC
4,3 110
0,84 21,4
2,375 60,3
6,4 162
8,54 217
3,9 100
0,99 25
3,3 1,5
38 32
MSA 21.с.4.1.150.040/032 MSA 21.s.4.1.150.040/032
1½×1¼ 40×32
1 1/2-11,5NPSC
4,7 120
0,84 21,4
2,875 73
6,85 174
9,2 234
4,6 118
1,26 32
6,2 2,8
71 60
MSA 21.с.4.1.150.050/040 MSA 21.s.4.1.150.050/040
2×1½ 50×40
2-11,5NPSC
5,5 140
1 25,7
3,5 88,9
11,1 282
13,8 352
5,5 140
1,5 38
8,4 3,8
176 150
L
I
A
L1
H
Dmin
Weight
Cv/Kv
MSA 21.с.4.1.150.015 MSA 21.s.4.1.150.015
ANSI Class 300 lb/kg
in/mm
Code
NPS/DN RG (NPSC or NPTC)
B
½ 15
1/2-18NPSC
3 75
0,59 15
1,86 42,2
6,4 162
7,87 200
3,4 87
0,51 13
2 0,9
19,1 16,3
MSA 21.с.4.1.300.020/015 MSA 21.s.4.1.300.020/015
¾ ×½ 20×15
3/4-14NPSC
3,15 80
0,64 16,3
1,86 42,2
6,4 162
7,95 202
3,4 87
0,51 13
2 0,92
12 10
MSA 21.с.4.1.300.025/020 MSA 21.s.4.1.300.025/020
1×¾ 25×20
1-11,5NPSC
3,5 90
0,75 19,1
1,9 48,3
6,4 162
8,15 207
3,7 94
0,75 19
2,3 1,03
24 21
MSA 21.с.4.1.300.032/025 MSA 21.s.4.1.300.032/025
1¼ ×1 32×25
1 1/4-11,5NPSC
4,3 110
0,84 21,4
2,375 60,3
6,4 162
8,54 217
3,9 100
0,99 25
3,3 1,5
38 32
MSA 21.с.4.1.300.040/032 MSA 21.s.4.1.300.040/032
1½×1¼ 40×32
1 1/2-11,5NPSC
4,7 120
0,84 21,4
2,875 73
6,85 174
9,2 234
4,6 118
1,26 32
6,2 2,8
71 60
MSA 21.с.4.1.300.050/040 MSA 21.s.4.1.300.050/040
2×1½ 50×40
2-11,5NPSC
5,5 140
1 25,7
3,5 88,9
11,1 282
13,8 352
5,5 140
1,5 38
8,4 3,8
176 150
MSA 21.с.4.1.300.015 MSA 21.s.4.1.300.015
Note: MSA 21.c.4.1 — carbon steel ball valve design MSA 21.s.4.1 — stainless steel ball valve design NPSC — straight pipe thread NPTC — taper pipe thread
MSA 21.c.4.1 MSA 21.s.4.1
DIMENSIONS & WEIGHT
67
Ball valves
Full bore
MSA 15.c.4.1
TECHNICAL CHARACTERISTICS Working pressure, not higher than.....................63 bar(class 400), 100 bar(class 600), 160bar(class 900) Working medium temperature..........................from -20°F (-29°C) to +356°F(+180°C) Working medium..............................................water, gas, oil products and other nontoxic and nonaggressive media, neutral for ball valve parts materials Testing and inspection.....................................according to API 6D, API 598 Environment temperature................................not less than –20°F (– 29°C) Quantity of work cycles....................................not less than 5000 Full lifetime.......................................................not less than 30 years Pipeline connection..........................................threaded ends Control means..................................................handle Threaded ends.................................................with thread acc. to BSP. ISO 228
DESIGNATION AND APPLICATION AREA Threaded end ball valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and food industries as a locking device fully blocking liquid and gaseous working media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters. DESIGN Split body ball valve. Full bore. Threaded ends design. Free floating ball is sealed with teflon seats that are pressed against the shutoff ball by spring washers. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. In the “open” state handle is parallel to pipeline axis. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction.
MATERIALS LIST № part name 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
68
Body Flange Ball Stem Press-on bush Ball seat Seat ring Spring washer Body gasket Stem seat Gasket ring Ring Handle Stud Nut Washer Washer
material
PRESSURE/TEMPERATURE RATING Class 400, Class 600
Class 900
ASTM A216 WCB ASTM A216 WCD ASTM A351 CF8M ASTM A182 F6u ASTM A696 Gr70 PTFE ASTM ASi Gr70 AISI 9260 PTFE PTFE Rubber PTFE ASTM A216 WCB ASTM A193 B7M ASTM 194 2H AISI 9260 ASTM A515 Gr70
We reserve the right to make modification without prior notice.
ANSI Class 400 lb/kg
in/mm
Code
NPS/DN
L
S
A
G
L1
H
B
F
Dmin
Weight
MSA15.c.4.1.400.015
½ 15
3 75
1,25 32
Cv/Kv
2 52
1/2
7 180
2 55
8,6 217,5
0,47 12
0,5 13
2,4 1,1
1,25 32
2,36 60
3/4
7 180
2,4 62
8,8 222,5
0,55 14
0,75 19
3,1 1,4
4,3 110
1,6 40
2,8 72
1
7 180
2,7 68
9,2 235
0,62 16
1 25
5,5 2,5
1¼ 32
4,7 120
2 52
3 76
1¼
12,3 314
3,2 82
14,7 374
0,8 20,5
1,25 32
8,1 3,7
MSA15.c.4.1.400.040
1½ 40
5,9 150
2,36 60
3,9 100
1½
12,3 314
4,5 115
15,3 389
0,86 22
1,5 38
19,6 8,9
MSA15.c.4.1.400.050
2 50
7,9 200
2,8 72
4,8 122
2
15,7 400
5,7 144
19,7 500
0,94 24
1,92 49
29,7 13,5
19,1 16,3 34,7 29,5 50 43 104 89 270 230 311 265
MSA15.c.4.1.400.020
¾ 20
3,3 85
MSA15.c.4.1.400.025
1 25
MSA15.c.4.1.400.032
Code
NPS/DN
L
S
A
G
L1
H
B
MSA15.c.4.1.600.015
½ 15
3 75
1,25 32
2 52
1/2
7 180
2 55
8,6 217,5
0,47 12
0,5 13
2,4 1,1
MSA15.c.4.1.600.020
¾ 20
3,3 85
1,25 32
2,36 60
3/4
7 180
2,4 62
8,8 222,5
0,55 14
0,75 19
3,1 1,4
MSA15.c.4.1.600.025
1 25
4,3 110
1,6 40
2,8 72
1
7 180
2,7 68
9,2 235
0,62 16
1 25
5,5 2,5
MSA15.c.4.1.600.032
1¼ 32
4,7 120
2 52
3 76
1¼
12,3 314
3,2 82
14,7 374
0,8 20,5
1,25 32
8,1 3,7
MSA15.c.4.1.600.040
1½ 40
5,9 150
2,36 60
3,9 100
1½
12,3 314
4,5 115
15,3 389
0,86 22
1,5 38
19,6 8,9
MSA15.c.4.1.600.050
2 50
7,9 200
2,8 72
4,8 122
2
15,7 400
5,7 144
19,7 500
0,94 24
1,92 49
29,7 13,5
Code
NPS/DN
L
S
A
G
L1
H
B
MSA15.c.4.1.900.015
½ 15
3 75
1,25 32
2 52
1/2
7 180
2 55
8,6 217,5
0,47 12
0,5 13
2,4 1,1
MSA15.c.4.1.900.020
¾ 20
3,3 85
1,25 32
2,36 60
3/4
7 180
2,4 62
8,8 222,5
0,55 14
0,75 19
3,1 1,4
MSA15.c.4.1.900.025
1 25
4,3 110
1,6 40
2,8 72
1
7 180
2,7 68
9,2 235
0,62 16
1 25
5,5 2,5
MSA15.c.4.1.900.032
1¼ 32
4,7 120
2 52
3 76
1¼
12,3 314
3,2 82
14,7 374
0,8 20,5
1,25 32
8,1 3,7
ANSI Class 600 lb/kg
in/mm
F
Dmin
Weight
Cv/Kv 19,1 16,3 34,7 29,5 50 43 104 89 270 230 311 265
ANSI Class 900 lb/kg
in/mm
F
Dmin
Weight
Cv/Kv 19,1 16,3 34,7 29,5 50 43 104 89
MSA 15.c.4.1
DIMENSIONS & WEIGHT
Note: It is possible to order ball valves with the taper pipe thread according to ISO7.1 (BSPT) or ANSI B1.20.1 (NPT).
69
Ball valves
Full bore
MSA 55.p MSA 56.p MSA 57.p
TECHNICAL CHARACTERISTICS Working pressure, not higher than....................20 bar (Class150) Working medium temperature...........................from -20°F (-29°C) to +230°F (+110°C) Working medium................................................water, gas, oil products and other nontoxic and nonagressive media, neutral for ball valve parts materials Environment temperature..................................not less than - 20°F (- 29°C) Quantity of work cycles......................................not less than 5000 Full lifetime........................................................not less than 30 years Pipeline connection...........................................welding end according to ISO 9623 Control means...................................................handle
DESIGNATION AND APPLICATION AREA Welding end polymer ball valves are designated for installation on the polymer pipelines as a locking device blocking liquid and gaseous media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of ball valve that would fully correspond to all the specified parameters.
DESIGN Single body cast polymer ball valve. Full bore. Welding end design. Ends are welded by means of heated instrument. Design types: MSA 55.p.2.1 — made of polypropylene. MSA 56.p.2.1 — made of polyethylene MSA 57.p.2.1 — made of polyvinylchloride Ball valve is maintenance-free. Free floating ball is sealed with teflon seats. Stem is protected from extrusion and sealed by teflon rings tightened by a press-on bush. Ball valve control is performed manually by turning a handle at an angle of 90˚ up to the full stop. Handle axis is parallel to bore axis so its position indicates ball valve “open” or “closed” state. In the “open” state handle is parallel to a pipeline axis. Ball valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. MATERIALS LIST № part name
PRESSURE/TEMPERATURE RATING Class 150
material
MSA 55.p
MSA 56.p
MSA 57.p
1
Body
polypropylene
polyethylene
polyvinylchloride
2
Ring
polypropylene
polyethylene
polyvinylchloride
3
Shell
polypropylene
polyethylene
polyvinylchloride
4
Stem
ASTM A182 F6a
ASTM A182 F6a
ASTM A182 F6a
5
Ball
ASTM A240 Type321
ASTM A240 Type321
6
Ball seat
PTFE
PTFE
PTFE
7
Stem seat
Rubber
Rubber
Rubber
8
Handle
polypropylene
polyethylene
polyvinylchloride
70
ASTM A240 Type321
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
DN
L
D
L1
B
H
Dmin
l
Dpipe
Weight
Cv/Kv
MSA 55.p.2.1.150.015 MSA 56.p.2.1.150.015 MSA 57.p.2.1.150.015
½ 15
2,48 63
0,77 19,5
2,95 75
4,19 106,5
2,05 52
0,49 12,5
0,57 14,5
0,79 20
0,26 0,12
19,1 16,3
MSA 55.p.2.1.150.020 MSA 56.p.2.1.150.020 MSA 57.p.2.1.150.020
¾ 20
2,8 71
0,96 24,5
2,95 75
4,35 110,5
2,17 55
0,67 17
0,63 16
0,98 25
0,33 0,15
34,7 29,5
MSA 55.p.2.1.150.025 MSA 56.p.2.1.150.025 MSA 57.p.2.1.150.025
1 25
3,15 80
1,24 31,5
2,95 75
4,53 115
2,4 61
0,94 24
0,71 18
1,26 32
0,6 0,27
50 43
MSA 55.p.2.1.150.032 MSA 56.p.2.1.150.032 MSA 57.p.2.1.150.032
1¼ 32
3,94 100
1,56 39,5
5,71 145
7,68 195
2,68 68
1,18 30
0,81 20,5
1,57 40
0,93 0,42
104 89
MSA 55.p.2.1.150.040 MSA 56.p.2.1.150.040 MSA 57.p.2.1.150.040
1½ 40
4,53 115
1,95 49,5
5,71 145
7,97 202,5
2,85 72,5
1,46 37
0,93 23,5
1,97 50
1,41 0,64
270 230
MSA 55.p.2.1.150.050 MSA 56.p.2.1.150.050 MSA 57.p.2.1.150.050
2 50
5,28 134
2,46 62,5
7,87 200
10,51 267
3,62 92
1,89 48
1,08 27,5
2,48 63
2,36 1,07
311 265
MSA 55.p MSA 56.p MSA 57.p
DIMENSIONS & WEIGHT
71
Butterfly valve MSA 70.c.3 MSA 70.i.3
TECHNICAL CHARACTERISTICS
DESIGNATION AND APPLICATION AREA
Working pressure, not higher than.......................20 bar (Class150) Working medium temperature…..........................from 5°F (-15°C) to +210°F (+100°C) for MSA 70.i.3 from -20°F (-29°C) to +210°F (+100°C) for MSA 70.с.3 Working medium...................................................water, gas, oil products and other nontoxic and nonaggressive media, neutral to butterfly valve parts Environment temperature.....................................not less than 5°F(-15°С) for MSA 70.i.3, not less than -20°F (-29°С) for MSA 70.с.3 Quantity of work cycles.........................................not less than 5000 Full lifetime............................................................not less than 30 years Pipeline connection...............................................interflanged Control means .....................................................handle, it is also possible to install the actuator gear Butterfly valves are manufactured........................according to API Standart 609 Face-to-face length...............................................API Standart 609 Pressure/ temperature rating................................according to API Standart 609 Testing and inspection..........................................according to API 598 Upper flange dimensions for actuator gear installation.................................according to ISO 5211
Butterfly valves are designated for installation on the pipelines in water and gas supplying systems, for application in heat-power engineering and also in chemical, oil-refining, gas and other industries as a locking and regulating device fully blocking and regulating liquid and gaseous media flow. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of butterfly valve that would fully correspond to all the specified parameters.
DESIGN Cast butterfly valve. Full bore. Interflanged design. Design types: MSA 70. i.3 — made of cast iron. MSA 70.c.3 — made of carbon steel. Round disc-shaped plate with seat sealing fully blocking medium flow. Interchangeable seat sealing. Flange seals are not used for mounting on the pipelines. Butterfly valve control is performed manually by turning a handle at a necessary angle. Handle with a gear sector enables the regulation of a working medium up to its full block. In the “open” state handle axis is parallel to a pipeline axis. Butterfly valve is intended to be installed on the pipeline in any position with working medium flow applied from any direction. Due to smooth eye ends butterfly valve can be used on the pipeline end during mounting and maintenance. MATERIALS LIST № part name 1
Body
2
Disc-shaped plate
PRESSURE/TEMPERATURE RATING Class 150
material MSA 70.i.3
MSA 70.c.3
ASTM A48 CLASS - 30 A
ASTM A216 WCB
ASTM A351 CF8M
ASTM A351 CF8M ASTM A182 F6a
3
Stem
ASTM A182 F6a
4
Seat
Rubber
Rubber
5
Handle
ASTM A216 WCB
ASTM A216 WCB
6
Retainer
ASTM A216 WCB
ASTM A216 WCB
7
Sector
ASTM A48 CLASS - 30A
ASTM A216 WCB
8
Spring
ASTM B637 Gr688
ASTM B637 Gr688
9
Gasket ring
10
Ring
11
Screw
12
Nut
72
Rubber
Rubber
ASTM A516 Grade70
ASTM A516 Grade70
ASTM A193 B7M
ASTM A193 B7M
ASTM A194 2H
ASTM A194 2H
We reserve the right to make modification without prior notice.
ANSI Class 150 lb/kg
in/mm
Code
NPS/DN
L
D
D1
L1
B
B1
H
Н1
Н2
Dэф
F
Weight
MSA 70.c.3.1.150.040 MSA 70. i.3.1.150.040 MSA 70.c.3.1.150.050 MSA 70. i.3.1.150.050 MSA 70.c.3.1.150.065 MSA 70. i.3.1.150.065 MSA 70.c.3.1.150.080 MSA 70. i.3.1.150.080 MSA 70.c.3.1.150.100 MSA 70. i.3.1.150.100 MSA 70.c.3.1.150.150 MSA 70. i.3.1.150.150 MSA 70.c.3.1.150.200 MSA 70. i.3.1.150.200
1½ 40 2 50 2½ 65 3 80 4 100 6 150 8 200
1,3 33 1,69 43 1,81 46 1,81 46 2,05 52 2,20 56 2,36 60
2,56 65 2,56 65 2,56 65 2,56 65 3,54 90 4,92 125 4,92 125
4,13 105 4,92 125 5,53 140,5 6/152,4 6,30/160 7,09/180 7,50/190,5 9,45 240 11,69 297
7,48 190 7,48 190 7,48 190 7,48 190 8,27 210 12,44 316 12,44 316
9,69 246 9,96 253 10,24 260 10,30 261,5 11,28 286,5 16,59 421,5 16,59 421,5
4,41 112 4,86 123,5 5,51 140 5,63 143 6,02 153 8,31 211 10,35 263
5,59 142 5,51 140 6,06 154 6,14 156 6,89 175 8,50 216 9,21 234
6,89 175 6,81 173 7,09 180 7,40 188 8,15 207 10,14 257,5 10,83 275,5
2,6 66 3,13 79,5 3,74 95 4,02 102 4,53 115 5,73 145,5 6,95 176,5
1,75 44,5 2,15 54,5 2,74 69,5 3,33 84,5 4,11 104,5 6,08 154,5 8,05 204,5
0,43 11 0,43 11 0,43 11 0,43 11 0,55 14 0,75 19 0,75 19
9,04 4,1 9,26 4,2 9,26 4,2 9,48 4,3 11,90 5,4 24,91 11,3 35,27 16
Cv/Kv NPS/DN
20°
30°
40°
50°
60°
70°
80°
90°
0
1,2 1
3,5 3
7,1 6
12,9 11
21,2 18
35,3 30
62,4 53
69,4 59
2 50
0
2,4 2
5,9 5
14,1 12
24,7 21
41,2 35
69,4 59
123,5 105
137,6 117
2½ 65
0
4,7 4
12,9 11
29,4 25
54,1 46
89,4 76
148,2 126
265,9 226
295,3 251
3 80
1,2 1
8,2 7
24,7 21
54,1 46
96,5 82
161,2 137
268,2 228
482,4 410
535,3 455
4 100
1,2 1
11,8 10
36,5 31
82,4 70
145,9 124
243,5 207
405,9 345
730,6 621
811,8 690
6 150
3,5 3
41,2 35
127,1 108
284,7 242
511,8 435
852,9 725
1422,4 1209
2560 2176
2844,7 2418
8 200
5,9 5
85,9 73
258,8 220
689,4 586
1055,3 897
1740 1479
2900 2465
5218,8 4436
5798,8 4929
1½ 40
10°
MSA 70.c.3 MSA 70.i.3
DIMENSIONS & WEIGHT
73
Gauze filter MSA 60.c MSA 60.i
TECHNICAL CHARACTERISTICS Working pressure, not higher than....................20 bar(Class150), 50 bar(Class300) Working medium temperature...........................from 5°F (-15°C) to +356°F (+180°C) for MSA 60.i from -20°F (-29°C) to +356°F (+180°C) for MSA 60.с Working medium...............................................water, gas, oil products and other nontoxic and non-aggressive media, neutral for filter parts materials Environment temperature.................................not less than 5°F(-15°С) for MSA 60.i not less than-20°F (-29°С) for MSA 60.с Full lifetime.......................................................not less than 30 years Pipeline connection..........................................flanged ends Flanges connection..........................................according to ASME B16.5 Pressure/ temperature rating...........................according to ASME/ANSI B16.34
DESIGNATION AND APPLICATION AREA Flanged end gauze filters are designated for protection of series installations, filtration and collecting of dirt particles. Filters are installed on the pipelines transporting liquid and gaseous working media in water and gas supplying systems, and are used in heat-power engineering, chemical, oil-refining, gas, and other industries. The manufacturer has at his disposal a comprehensive informational background on the consequences of working medium influence on different types of materials and can offer its customers a type of gauze filter that would fully correspond to all the specified parameters.
DESIGN Gauze filter. Flanged end design. Cast body and cover are made of carbon steel MSA 60.c, or from cast iron MSA 60.i. Body and cover are sealed with teflon gaskets. Gauze filter is intended to be installed on the pipeline in horizontal position with the cover directed downwards. In case of application in gas pipeline systems the cover should be directed sideway. Gauze filter installation in vertical position is possible only with working medium flow top-down. Working medium flow direction in accordance with an arrow direction shown on the body.
MATERIALS LIST № part name
material
MSA 60.i
Class 300
MSA 60.c
1
Body
ASTM A48 CLASS - 30 A
ASTM A216 WCB
2
Cover
ASTM A48 CLASS - 30 A
ASTM A216 WCB
3
Gauze element
AISI 316L
AISI 316L
4
Body gasket
PTFE
PTFE
5
Drain plug
ASTM A516 Gr70
ASTM A516 Gr70
6
Bolt
ASTM A193 B7M
ASTM A193 B7M
7
Nut
ASTM A194 2H
ASTM A194 2H
8
Washer
AISI 9260
AISI 9260
9
Washer
ASTM A515 Gr70
ASTM A515 Gr70
74
PRESSURE/TEMPERATURE RATING Class 150
We reserve the right to make modification without prior notice.
ANSI Class 150 in/mm
lb/kg
Code
NPS/DN
L
D
D1
D2
H
H1
Dmin
d
MSA 60.с.1.150.015 MSA 60.i.1.150.015 MSA 60.с.1.150.020 MSA 60.i.1.150.020 MSA 60.с.1.150.025 MSA 60.i.1.150.025 MSA 60.с.1.150.032 MSA 60.i.1.150.032 MSA 60.с.1.150.040 MSA 60.i.1.150.040 MSA 60.с.1.150.050 MSA 60.i.1.150.050 MSA 60.с.1.150.065 MSA 60.i.1.150.065 MSA 60.с.1.150.080 MSA 60.i.1.150.080 MSA 60.с.1.150.100 MSA 60.i.1.150.100 MSA 60.с.1.150.150 MSA 60.i.1.150.150 MSA 60.с.1.150.200 MSA 60.i.1.150.200
½ 15 ¾ 20 1 25 1¼ 32 1½ 40 2 50 2½ 65 3 80 4 100 6 150 8 200
5,12 130 5,91 150 6,3 160 7,08 180 7,87 200 9,05 230 11,41 290 12,2 310 13,78 350 18,89 480 23,62 600
3,5 90 3,88 100 4,25 110 4,62 115 5 125 6 150 7 180 7,5 190 9 230 11 280 13,5 345
2,38 60,3 2,75 69,9 3,12 79,4 3,5 88,9 3,88 98,4 4,75 120,7 5,5 139,7 6 152,4 7,5 190,5 9,5 241,3 11,75 298,5
1,38 34,9 1,69 42,9 2 50,8 2,5 63,5 2,88 73 3,62 92,1 4,12 104,8 5 127 6,19 157,2 8,5 215,9 10,62 269,9
2,64 67 3,31 84 3,67 93 4,09 104 5,52 140 6,22 158 7,40 188 9,41 239 11,26 286 14,88 378 17,32 440
3,39 86 4,02 102 4,65 118 5,12 130 7,48 190 8,78 223 10,24 260 12,72 323 16,1 409 21,65 550 25,59 650
0,51 13 0,75 19 0,99 25 1,26 32 1,5 38 1,93 49 2,44 62 2,92 74 3,95 100 5,9 150 7,9 201
5/8 15,9 5/8 15,9 5/8 15,9 5/8 15,9 5/8 15,9 3/4 19 3/4 19 3/4 19 3/4 19 7/8 22,2 7/8 22,2
Code
NPS/DN
L
D
D1
D2
H
H1
Dmin
d
MSA 60.с.1.300.015 MSA 60.i.1.300.015 MSA 60.с.1.300.020 MSA 60.i.1.300.020 MSA 60.с.1.300.025 MSA 60.i.1.300.025 MSA 60.с.1.300.032 MSA 60.i.1.300.032 MSA 60.с.1.300.040 MSA 60.i.1.300.040 MSA 60.с.1.300.050 MSA 60.i.1.300.050 MSA 60.с.1.300.065 MSA 60.i.1.300.065 MSA 60.с.1.300.080 MSA 60.i.1.300.080 MSA 60.с.1.300.100 MSA 60.i.1.300.100 MSA 60.с.1.300.150 MSA 60.i.1.300.150 MSA 60.с.1.300.200 MSA 60.i.1.300.200
½ 15 ¾ 20 1 25 1¼ 32 1½ 40 2 50 2½ 65 3 80 4 100 6 150 8 200
5,12 130 5,91 150 6,3 160 7,08 180 7,87 200 9,05 230 11,41 290 12,2 310 13,78 350 18,89 480 23,62 600
3,75 95 4,62 115 4,88 125 5,25 135 6,12 155 6,5 165 7,5 190 8,25 210 10 255 12,5 320 15 380
2,62 66,7 3,25 82,6 3,5 88,9 3,88 98,4 4,5 114 5 127 5,88 149,2 6,62 168,3 7,88 200 10,62 269,9 13 330
1,38 34,9 1,69 42,9 2 50,8 2,5 63,5 2,88 73 3,62 92,1 4,12 104,8 5 127 6,19 157,2 8,5 215,9 10,62 269,9
2,64 67 3,31 84 3,67 93 4,09 104 5,52 140 6,22 158 7,40 188 9,41 239 11,26 286 14,88 378 17,32 440
3,39 86 4,02 102 4,65 118 5,12 130 7,48 190 8,78 223 10,24 260 12,72 323 16,1 409 21,65 550 25,59 650
0,51 13 0,75 19 0,99 25 1,26 32 1,5 38 1,93 49 2,44 62 2,92 74 3,95 100 5,9 150 7,9 201
5/8 15,9 3,4 19 3,4 19 3,4 19 7/8 22,2 3/4 19 7/8 22,2 7/8 22,2 7/8 22,2 7/8 22,2 7/8 22,2
n
Weight
Cv/Kv
4
8
5,5 2,5 7,04 3,2 9,9 4,5 12,76 5,8 15,62 7,1 22 10 40,08 18,22 51,9 23,6 79,2 36 167,2 76 242 110
4,93 5,8 8,84 10,4 13,94 16,4 23,2 27,3 35,7 42 54,99 64,7 73,9 86,9 91,72 107,9 184,5 217 371,2 436,7 670,8 789,2
n
Weight
4
5,5 2,5 7,04 3,2 9,9 4,5 12,76 5,8 15,62 7,1 22 10 40,08 18,22 51,9 23,6 79,2 36 167,2 76 242 110
4 4 4 4 4 4 4 8 8
ANSI Class 300 in/mm
lb/kg
4 4 4 4 8 8 8 8 12 12
Cv/Kv 4,93 5,8 8,84 10,4 13,94 16,4 23,2 27,3 35,7 42 54,99 64,7 73,9 86,9 91,72 107,9 184,5 217 371,2 436,7 670,8 789,2
MSA 60.c MSA 60.i
DIMENSIONS & WEIGHT
75
Flange MSA 90.c MSA 90.s
TECHNICAL CHARACTERISTICS Working pressure, not higher than...................20 bar (Class150), 50 bar (Class300), 64 bar(Class400), 100 bar(Class600) Working medium temperature..........................from -20°F (-29°C) to +356°F(+180°C) Working medium..............................................water, gas, oil products and and other media, including aggressive ones, neutral to flange materials Environment temperature................................not less than - 20°F (- 29°C) Full lifetime.......................................................not less than 30 years Dimensions: ...................................................according to ASME B16.5 Pressure/temperature rating...........................according to ASME/ANSI B16.34 Testing and inspection.....................................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA
Flanges are designated for installation on the pipelines and pipelines fittings, for single pipeline parts mounting and connection of steel pipes to vessels, machines, devices in various industries.
DESIGN
Flat flange with smooth raised sealing face. 2 mm raised face for Classes 150 and 300. 7 mm raised face for Classes 400 and 600. Flanges are made of carbon or stainless steel by means of casting. Design types: MS 90.c –made of carbon steel. MS 90.s – made of stainless steel The manufacturer can also offer flanges corresponding to other parameters specified by the client MATERIALS LIST part name
material
MSA 90.c
ASTM A216 WCB
MSA 90.s
ASTM A351 CF8M
76
We reserve the right to make modification without prior notice.
ANSI Class 150 in/mm
Code
lb/kg
NPS/DN
D
D1
D2
D3
D4
T
B
d
n
Weight
MSA 90.с.150.015 MSA 90.s.150.015
½ 15
3,5 90
2,38 60,3
1,38 34,9
0,88 22,2
1,19 30
0,38 9,6
0,56 14
5/8 15,88
4
1,12 0,51
MSA 90.с.150.020 MSA 90.s.150.020
¾ 20
3,88 100
2,75 69,9
1,69 42,9
1,09 27,7
1,5 38
0,44 11,2
0,56 14
5/8 15,88
4
1,45 0,66
MSA 90.с.150.025 MSA 90.s.150.025
1 25
4,25 110
3,12 79,4
2 50,8
1,36 34,5
1,94 49
0,5 12,7
0,62 16
5/8 15,88
4
1,98 0,9
MSA 90.с.150.032 MSA 90.s.150.032
1¼ 32
4,62 115
3,5 88,9
2,5 63,5
1,7 43,2
2,31 59
0,56 14,3
0,75 19
5/8 15,88
4
2,67 1,2
MSA 90.с.150.040 MSA 90.s.150.040
1½ 40
5 125
3,88 98,4
2,88 73
1,95 49,5
2,56 65
0,62 15,9
0,81 21
5/8 15,88
4
3,19 1,45
MSA 90.с.150.050 MSA 90.s.150.050
2 50
6 150
4,75 120,7
3,62 92,1
2,44 61,9
3,06 78
0,69 17,5
0,94 24
3/4 19,05
4
5,43 2,47
MSA 90.с.150.065 MSA 90.s.150.065
2½ 65
7 180
5,5 139,7
4,12 104,8
2,94 74,6
3,56 90
0,81 20,7
1,06 27
3/4 19,05
4
8,91 4,05
MSA 90.с.150.080 MSA 90.s.150.080
3 80
7,5 190
6 152,4
5 127
3,57 90,7
4,25 108
0,88 22,3
1,12 29
3/4 19,05
4
10,12 4,6
MSA 90.с.150.090 MSA 90.s.150.090
3½ 90
8,5 215
7 177,8
5,5 139,7
4,07 103,4
4,81 122
0,88 22,3
1,19 30
3/4 19,05
8
12,36 5,62
MSA 90.с.150.100 MSA 90.s.150.100
4 100
9 230
7,5 190,5
6,19 157,2
4,57 116,1
5,31 135
0,88 22,3
1,25 32
3/4 19,05
8
15,84 7,2
MSA 90.с.150.125 MSA 90.s.150.125
5 125
10 255
8,5 215,9
7,31 185,7
5,66 143,8
6,44 164
0,88 22,3
1,38 35
7/8 22,23
8
17,5 7,95
MSA 90.с.150.150 MSA 90.s.150.150
6 150
11 280
9,5 241,3
8,5 215,9
6,72 170,7
7,56 192
0,94 23,9
1,5 38
7/8 22,23
8
21,78 9,9
MSA 90.с.150.200 MSA 90.s.150.200
8 200
13,5 345
11,5 298,5
10,62 269,9
8,72 221,5
9,69 246
1,06 27
1,69 43
7/8 22,23
8
32,78 14,9
MSA 90.с.150.250 MSA 90.s.150.250
10 250
16 405
14,25 362
12,75 323,8
10,88 276,2
12 305
1,12 28,6
1,88 48
1 25,4
12
47,3 21,5
MSA 90.с.150.300 MSA 90.s.150.300
12 300
19 485
17 431,8
15 381
12,88 327
14,38 365
1,19 30,2
2,12 54
1 25,4
12
69,74 31,7
MSA 90.с.150.350 MSA 90.s.150.350
14 350
21 535
18,75 476,3
16,25 412,8
14,14 359,2
15,75 400
1,31 33,4
2,19 56
1 1/8 28,58
12
104,7 47,6
MSA 90.с.150.400 MSA 90.s.150.400
16 400
23,5 595
21,25 539,8
18,5 469,9
16,16 410,5
18 457
1,38 35
2,44 62
1 1/8 28,58
16
115,7 52,6
MSA 90.с.150.450 MSA 90.s.150.450
18 450
25 635
22,75 577,9
21 533,4
18,18 461,8
19,88 505
1,5 38,1
2,62 67
1 1/4 31,75
16
160,6 73
MSA 90.с.150.500 MSA 90.s.150.500
20 500
27,5 700
25 635
23 584,2
20,20 513,1
22 559
1,62 41,3
2,81 71
1 1/4 31,75
20
192 87,3
MSA 90.с.150.600 MSA 90.s.150.600
24 600
32 815
29,5 749,3
27,25 692,2
24,25 616
26,12 663
1,81 46,1
3,19 81
1 3/8 34,93
20
289,7 131,7
MSA 90.c MSA 90.s
DIMENSIONS & WEIGHT
Note: MSA90.c — carbon steel flange design MSA90.s — stainless steel flange design
77
Flange DIMENSIONS & WEIGHT ANSI Class 300 in/mm
Code
lb/kg
NPS/DN
D
D1
D2
D3
D4
T
B
d
n
Weight
MSA 90.с.300.015 MSA 90.s.300.015
½ 15
3,75 95
2,62 66,7
1,38 34,9
0,88 22,2
1,5 38
0,5 12,7
0,81 21
5/8 15,88
4
1,7 0,77
MSA 90.с.300.020 MSA 90.s.300.020
¾ 20
4,62 115
3,25 82,6
1,69 42,9
1,09 27,7
1,88 48
0,56 14,3
0,94 24
3/4 19,05
4
2,42 1,1
MSA 90.с.300.025 MSA 90.s.300.025
1 25
4,88 125
3,5 88,9
2 50,8
1,36 34,5
2,12 54
0,62 15,9
1 25
3/4 19,05
4
3,52 1,6
MSA 90.с.300.032 MSA 90.s.300.032
1¼ 32
5,25 135
3,88 98,4
2,5 63,5
1,7 43,2
2,5 64
0,69 17,5
1 25
3/4 19,05
4
4 1,82
MSA 90.с.300.040 MSA 90.s.300.040
1½ 40
6,12 155
4,5 114,3
2,88 73
1,95 49,5
2,75 70
0,75 19,1
1,13 29
7/8 22,23
4
6,07 2,76
MSA 90.с.300.050 MSA 90.s.300.050
2 50
6,5 165
5 127
3,62 92,1
2,44 61,9
3,31 84
0,81 20,7
1,25 32
3/4 19,05
8
8,14 3,7
MSA 90.с.300.065 MSA 90.s.300.065
2½ 65
7,5 190
5,88 149,2
4,12 104,8
2,94 74,6
3,94 100
0,94 23,9
1,44 37
7/8 22,23
8
11,5 5,22
MSA 90.с.300.080 MSA 90.s.300.080
3 80
8,25 210
6,62 168,3
5 127
3,57 90,7
4,62 117
1,06 27
1,63 41
7/8 22,23
8
15,5 7,03
MSA 90.с.300.090 MSA 90.s.300.090
3½ 90
9 230
7,25 184,2
5,5 139,7
4,07 103,4
5,25 133
1,12 28,6
1,69 43
7/8 22,23
8
18,4 8,37
MSA 90.с.300.100 MSA 90.s.300.100
4 100
10 255
7,88 200
6,19 157,2
4,57 116,1
5,75 146
1,19 30,2
1,82 46
7/8 22,23
8
25,0 11,36
MSA 90.с.300.125 MSA 90.s.300.125
5 125
11 280
9,25 235
7,31 185,7
5,66 143,8
7 178
1,31 33,4
1,94 49
7/8 22,23
8
36,08 16,4
MSA 90.с.300.150 MSA 90.s.300.150
6 150
12,5 320
10,62 269,9
8,5 215,9
6,72 170,7
8,12 206
1,38 35
2 51
7/8 22,23
12
51,2 23,3
MSA 90.с.300.200 MSA 90.s.300.200
8 200
15 380
13 330,2
10,62 269,9
8,72 221,5
10,25 260
1,56 39,7
2,38 60
1 25,4
12
69 31,4
MSA 90.с.300.250 MSA 90.s.300.250
10 250
17,5 445
15,52 387,4
12,75 323,8
10,88 276,2
12,62 321
1,81 46,1
2,56 65
1 1/8 28,58
16
99,5 45,2
MSA 90.с.300.300 MSA 90.s.300.300
12 300
20,5 520
17,75 450,8
15 381
12,88 327
14,75 375
1,94 49,3
2,82 71
1 1/4 31,75
16
147 66,8
MSA 90.с.300.350 MSA 90.s.300.350
14 350
23 585
20,25 514,4
16,25 412,8
14,14 359,2
16,75 425
2,06 52,4
2,94 75
1 1/4 31,75
20
192,9 87,7
MSA 90.с.300.400 MSA 90.s.300.400
16 400
25,5 650
22,5 571,5
18,5 469,9
16,16 410,5
19 483
2,19 55,6
3,19 81
1 3/8 34,93
20
260 118,2
MSA 90.с.300.450 MSA 90.s.300.450
18 450
28 710
24,75 628,6
21 533,4
18,18 461,8
21 533
2,31 58,8
3,44 87
1 3/8 34,93
24
300,3 136,5
MSA 90.с.300.500 MSA 90.s.300.500
20 500
30,5 775
27 685,8
23 584,2
20,20 513,1
23,12 587
2,44 62
3,69 94
1 3/8 34,93
24
565,4 257
MSA 90.с.300.600 MSA 90.s.300.600
24 600
36 915
32 812,8
27,25 692,2
24,25 616
27,62 702
2,69 68,3
4,13 105
1 5/8 41,3
24
737 335
Note: MSA 90.c — carbon steel flange design MSA 90.s — stainless steel flange design
78
We reserve the right to make modification without prior notice.
ANSI Class 400 in/mm
Code
lb/kg
NPS/DN
D
D1
D2
D3
D4
MSA 90.с.400.015 MSA 90.s.400.015
½ 15
3,75 95
2,62 66,7
1,38 34,9
0,88 22,2
1,5 38
MSA 90.с.400.020 MSA 90.s.400.020
¾ 20
4,62 115
3,25 82,6
1,69 42,9
1,09 27,7
MSA 90.с.400.025 MSA 90.s.400.025
1 25
4,88 125
3,5 88,9
2 50,8
MSA 90.с.400.032 MSA 90.s.400.032
1¼ 32
5,25 135
3,88 98,4
MSA 90.с.400.040 MSA 90.s.400.040
1½ 40
6,12 155
MSA 90.с.400.050 MSA 90.s.400.050
2 50
MSA 90.с.400.065 MSA 90.s.400.065
T
B
d
n
Weight
0,56 14,3
0,88 22
5/8 15,88
4
1,91 0,87
1,88 48
0,62 15,9
1 25
3/4 19,05
4
2,75 1,25
1,36 34,5
2,12 54
0,69 17,5
1,06 27
3/4 19,05
4
3,85 1,75
2,5 63,5
1,7 43,2
2,5 64
0,81 20,7
1,12 29
3/4 19,05
4
5,24 2,38
4,5 114,3
2,88 73
1,95 49,5
2,75 70
0,88 22,3
1,25 32
7/8 22,23
4
7,08 3,22
6,5 165
5 127
3,62 92,1
2,44 61,9
3,31 84
1 25,4
1,44 37
3/4 19,05
8
9,9 4,5
2½ 65
7,5 190
5,88 149,2
4,12 104,8
2,94 74,6
3,94 100
1,13 28,6
1,62 41
7/8 22,23
8
13,75 6,25
MSA 90.с.400.080 MSA 90.s.400.080
3 80
8,25 210
6,62 168,3
5 127
3,57 90,7
4,62 117
1,25 31,8
1,81 46
7/8 22,23
8
18,26 8,3
MSA 90.с.400.090 MSA 90.s.400.090
3½ 90
9 230
7,25 184,2
5,5 139,7
4,07 103,4
5,25 133
1,38 35
1,94 49
1 25,4
8
22,55 10,25
MSA 90.с.400.100 MSA 90.s.400.100
4 100
10 255
7,88 200
6,19 157,2
4,57 116,1
5,75 146
1,38 35
2 51
1 25,4
8
28,82 13,1
MSA 90.с.400.125 MSA 90.s.400.125
5 125
11 280
9,25 235
7,31 185,7
5,66 143,8
7 178
1,5 38,1
2,12 54
1 25,4
8
41,14 18,7
MSA 90.с.400.150 MSA 90.s.400.150
6 150
12,5 320
10,62 269,9
8,5 215,9
6,72 170,7
8,12 206
1,62 41,3
2,25 57
1 25,4
12
56,54 25,7
MSA 90.с.400.200 MSA 90.s.400.200
8 200
15 380
13 330,2
10,62 269,9
8,72 221,5
10,25 260
1,88 47,7
2,69 68
1 1/8 28,58
12
83,16 37,8
MSA 90.с.400.250 MSA 90.s.400.250
10 250
17,5 445
15,52 387,4
12,75 323,8
10,88 276,2
12,62 321
2,12 54
2,88 73
1 1/4 31,75
16
116,4 52,9
MSA 90.с.400.300 MSA 90.s.400.300
12 300
20,5 520
17,75 450,8
15 381
12,88 327
14,75 375
2,25 57,2
3,12 79
1 3/8 34,93
16
168,3 76,5
MSA 90.с..400.350 MSA 90.s..400.350
14 350
23 585
20,25 514,4
16,25 412,8
14,14 359,2
16,75 425
2,38 60,4
3,31 84
1 3/8 34,93
20
230,1 104,6
MSA 90.с.400.400 MSA 90.s.400.400
16 400
25,5 650
22,5 571,5
18,5 469,9
16,16 410,5
19 483
2,5 63,5
3,69 94
1 1/2 38,1
20
295,2 134,2
MSA 90.с.400.450 MSA 90.s.400.450
18 450
28 710
24,75 628,6
21 533,4
18,18 461,8
21 533
2,62 66,7
3,88 98
1 1/2 38,1
24
340,6 154,8
MSA 90.с.400.500 MSA 90.s.400.500
20 500
30,5 775
27 685,8
23 584,2
20,20 513,1
23,12 587
2,75 69,9
4 102
1 5/8 41,3
24
401 182,3
MSA 90.с.400.600 MSA 90.s.400.600
24 600
36 915
32 812,8
27,25 692,2
24,25 616
27,62 702
3 76,2
4,5 114
1 7/8 47,63
24
518,9 235,9
MSA 90.c MSA 90.s
DIMENSIONS & WEIGHT
Note: MSA90.c — carbon steel flange design MSA90.s — stainless steel flange design
79
Flange DIMENSIONS & WEIGHT ANSI Class 600 in/mm
Code
lb/kg
NPS/DN
D
D1
D2
D3
D4
MSA 90.с.600.015 MSA 90.s.600.015
½ 15
3,75 95
2,62 66,7
1,38 34,9
0,88 22,2
1,5 38
MSA 90.с.600.020 MSA 90.с.600.020
¾ 20
4,62 115
3,25 82,6
1,69 42,9
1,09 27,7
MSA 90.с.600.025 MSA 90.s.600.025
1 25
4,88 125
3,5 88,9
2 50,8
MSA 90.с.600.032 MSA 90.s.600.032
1¼ 32
5,25 135
3,88 98,4
MSA 90.с6400.040 MSA 90.s.600.040
1½ 40
6,12 155
MSA 90.с.600.050 MSA 90.s.600.050
2 50
MSA 90.с.600.065 MSA 90.s.600.065
T
B
d
n
Weight
0,56 14,3
0,88 22
5/8 15,88
4
1,89 0,86
1,88 48
0,62 15,9
1 25
3/4 19,05
4
2,66 1,21
1,36 34,5
2,12 54
0,69 17,5
1,06 27
3/4 19,05
4
3,8 1,73
2,5 63,5
1,7 43,2
2,5 64
0,81 20,7
1,12 29
3/4 19,05
4
5,12 2,33
4,5 114,3
2,88 73
1,95 49,5
2,75 70
0,88 22,3
1,25 32
7/8 22,23
4
7,04 3,2
6,5 165
5 127
3,62 92,1
2,44 61,9
3,31 84
1 25,4
1,44 37
3/4 19,05
8
9,68 4,4
2½ 65
7,5 190
5,88 149,2
4,12 104,8
2,94 74,6
3,94 100
1,13 28,6
1,62 41
7/8 22,23
8
14,78 6,72
MSA 90.с.600.080 MSA 90.s.600.080
3 80
8,25 210
6,62 168,3
5 127
3,57 90,7
4,62 117
1,25 31,8
1,81 46
7/8 22,23
8
19,58 8,9
MSA 90.с.600.090 MSA 90.s.600.090
3½ 90
9 230
7,25 184,2
5,5 139,7
4,07 103,4
5,25 133
1,38 35
1,94 49
1 25,4
8
23,98 10,9
MSA 90.с.600.100 MSA 90.s.600.100
4 100
10,75 275
8,5 215,9
6,19 157,2
4,57 116,1
6 152
1,5 38,1
2,12 54
1 25,4
8
36,3 16,5
MSA 90.с.600.125 MSA 90.s.600.125
5 125
13 330
10,5 266,7
7,31 185,7
5,66 143,8
7,44 189
1,75 44,5
2,38 60
1 1/8 28,58
8
61,82 28,1
MSA 90.с.600.150 MSA 90.s.600.150
6 150
14 355
11,5 292,1
8,5 215,9
6,72 170,7
8,75 222
1,88 47,7
2,62 67
1 1/8 28,58
12
80,96 36,8
MSA 90.с.600.200 MSA 90.s.600.200
8 200
16,5 420
13,75 349,2
10,62 269,9
8,72 221,5
10,75 273
2,19 55,6
3 76
1 1/4 31,75
12
125,8 57,2
MSA 90.с.600.250 MSA 90.s.600.250
10 250
20 510
17 431,8
12,75 323,8
10,88 276,2
13,5 343
2,5 63,5
3,38 86
1 3/8 34,93
16
212,3 96,5
MSA 90.с.600.300 MSA 90.s.600.300
12 300
22 560
19,25 489
15 381
12,88 327
15,75 400
2,62 66,7
3,62 92
1 3/8 34,93
20
250 113,6
MSA 90.с.600.350 MSA 90.s.600.350
14 350
23,75 605
20,75 527
16,25 412,8
14,14 359,2
17 432
2,75 69,9
3,69 94
1 1/2 38,1
20
319,4 145,2
MSA 90.с.600.400 MSA 90.s.600.400
16 400
27 685
23,75 603,2
18,5 469,9
16,16 410,5
19,5 495
3 76,2
4,19 106
1 5/8 34,93
20
397,1 180,5
MSA 90.с.600.450 MSA 90.s.600.450
18 450
29,25 745
25,75 654
21 533,4
18,18 461,8
21,5 546
3,25 82,6
4,62 117
1 3/4 44.4
20
517,2 235,1
MSA 90.с.600.500 MSA 90.s.600.500
20 500
32 815
28,5 723,9
23 584,2
20,20 513,1
24 610
3,5 88,9
5 127
1 3/4 44.4
24
617,1 280,5
MSA 90.с.600.600 MSA 90.s.600.600
24 600
37 940
33 838,2
27,25 692,2
24,25 616
28,25 718
4 101,6
5,5 140
2 50,8
24
836 380
Note: MSA 90.c — carbon steel flange design MSA 90.s — stainless steel flange design
80
We reserve the right to make modification without prior notice.
MSA 95.c MSA 95.s
TECHNICAL CHARACTERISTICS Working pressure, not higher than........100bar Working medium temperature...............from -20°F (-29°C) to +356°F(+180°C) Environment temperature......................not less than - 20°F (- 29°C) Material..................................................according to ASME B16.5 Dimensions............................................according to ASME B16.5 Pressure/temperature rating..................according to ASME/ANSI B16.34 Testing and inspection..........................according to API 6D, API 598 DIMENSIONS
DESIGNATION AND APPLICATION AREA
Studs are designated for application in flanged joints on the pipelines, pipelines fittings, gears, machines and devices in various industries.
Studs for flanged joints with two threaded ends. Design types: MSA 95.c — made of carbon steel. MSA 95.s — made of stainless steel The manufacturer can also offer studs corresponding to other parameters specified by the client.
1/2
2 ... 4 / 50 ... 100
MSA 95.с.5/8/L MSA 95.s.5/8/L
5/8
2,25 ... 4,25/ 60 ... 110
MSA 95.с.3/4/L MSA 95.s.3/4/L
3/4
2,75 ...5,5 / 80 ... 140
MSA 95.с.7/8/L MSA 95.s.7/8/L
7/8
4 ... 6 / 100 ... 150
1
4,25 ... 6,75 / 110 ... 170
MSA 95.с.1 1/8/L MSA 95.s.1 1/8/L
1 1/8
4,75 ... 8 / 120 ... 200
MSA 95.с.1 1/4/L MSA 95.s.1 1/4/L
1 1/4
4,75 ... 8,75 / 150 ... 220
MSA 95.с.1 3/8/L MSA 95.s.1 3/8/L
1 3/8
8 ... 10,75 / 200 ...270
MSA 95.с.1 1/2/L MSA 95.s.1 1/2/L
1 1/2
8 ... 10,75 / 200 ... 270
MSA 95.с.1 5/8/L MSA 95.s.1 5/8/L
1 5/8
11 ... 13 / 280 ... 330
MSA 95.с.1 7/8/L MSA 95.s.1 7/8/L
1 7/8
12,5 ... 13,75 / 320 ... 350
2
13,25 ... 15,75 / 340 .. 400
MSA 95.c.2 1/4/L MSA 95.s.2 1/4/L
2 1/4
15,75 ... 17 / 400 ... 430
MSA 95.c.2 1/2/L MSA 95.s.2 1/2/L
2 1/2
15,75 ... 18,5 / 400 ... 470
MSA 95.c.2 3/4/L MSA 95.s.2 3/4/L
2 3/4
19,25 ... 20,75 / 490 ... 530
3
20,75 ... 22,5 / 530 ... 570
3 1/2
24 ... 25,5 / 610 ... 650
MSA 95.c.2/L MSA 95.s.2/L
MATERIALS LIST part name
material
MSA 95.c
ASTM A193 B7M
MSA 95.s
ASTM A193 B8M
MSA 95.c.3/L MSA 95.s.3/L MSA 95.c.3 1/2/L MSA 95.s.3 1/2/L
Note: MSA 95.c — carbon steel stud design MSA 95.s — stainless steel stud design dimension b — by agreement with the client
in/mm
L
MSA 95.с.1/2/L MSA 95.s.1/2/L
MSA 95.с.1/L MSA 95.s.1/L
DESIGN
d
b
by agreement with the client
in
Code
MSA 95.c MSA 95.s
Stud
81
Flange MSA 91.c MSA 91.s
TECHNICAL CHARACTERISTICS
Working pressure, not higher than........20 bar (Class150), 50 bar (Class300), 64 bar (Class400), 100 bar(Class600) Working medium temperature...............from -20°F (-29°C) to +356°F(+180°C) Working medium...................................water, gas, oil products and other media, including aggressive ones, neutral to flamg materials Environment temperature.....................not less than - 20°F (- 29°C) Full lifetime............................................not less than 30 years Dimensions: .........................................according to ASME B16.5 Pressure/ temperature rating................according to ASME/ANSI B16.34 Testing and inspection..........................according to API 6D, API 598
DESIGNATION AND APPLICATION AREA
Flanges are designated for installation on the pipelines and pipelines fittings, for single pipeline parts mounting and connection of steel pipes to vessels, machines, devices in various industries.
DESIGN
Flat blind flange with smooth raised sealing face. 2 mm raised face for Classes 150 and 300. 7 mm raised face for Classes 400 and 600. Flanges are made of carbon or stainless steel by means of casting. Design types: MSA 91.c –made of carbon steel. MSA 91.s – made of stainless steel The manufacturer can also offer flanges corresponding to other parameters specified by the client. MATERIALS LIST part name
material
MSA 91.c
ASTM A216 WCB
MSA 91.s
ASTM A351 CF8M
82
We reserve the right to make modification without prior notice.
ANSI Class 150 in/mm
Code
NPS/DN
lb/kg
D
D1
D2
T
d
n
Weight
MSA 91.с.150.015 MSA 91.s.150.015
½ 15
3,5 90
2,38 60,3
1,38 34,9
0,38 9,6
5/8 15,88
4
1,14 0,52
MSA 91.с.150.020 MSA 91.s.150.020
¾ 20
3,88 100
2,75 69,9
1,69 42,9
0,44 11,2
5/8 15,88
4
1,54 0,7
MSA 91.с.150.025 MSA 91.s.150.025
1 25
4,25 110
3,12 79,4
2 50,8
0,5 12,7
5/8 15,88
4
2,1 0,96
MSA 91.с.150.032 MSA 91.s.150.032
1¼ 32
4,62 115
3,5 88,9
2,5 63,5
0,56 14,3
5/8 15,88
4
2,33 1,06
MSA 91.с.150.040 MSA 91.s.150.040
1½ 40
5 125
3,88 98,4
2,88 73
0,62 15,9
5/8 15,88
4
3,04 1,38
MSA 91.с.150.050 MSA 91.s.150.050
2 50
6 150
4,75 120,7
3,62 92,1
0,69 17,5
3/4 19,05
4
5,2 2,36
MSA 91.с.150.065 MSA 91.s.150.065
2½ 65
7 180
5,5 139,7
4,12 104,8
0,81 20,7
3/4 19,05
4
7,5 3,4
MSA 91.с.150.080 MSA 91.s.150.080
3 80
7,5 190
6 152,4
5 127
0,88 22,3
3/4 19,05
4
8,14 3,7
MSA 91.с.150.091 MSA 91.s.150.091
3½ 90
8,5 215
7 177,8
5,5 139,7
0,88 22,3
3/4 19,05
8
10,12 4,6
MSA 91.с.150.100 MSA 91.s.150.100
4 100
9 230
7,5 190,5
6,19 157,2
0,88 22,3
3/4 19,05
8
12,1 5,5
MSA 91.с.150.125 MSA 91.s.150.125
5 125
10 255
8,5 215,9
7,31 185,7
0,88 22,3
7/8 22,23
8
13,86 6,3
MSA 91.с.150.150 MSA 91.s.150.150
6 150
11 280
9,5 241,3
8,5 215,9
0,94 23,9
7/8 22,23
8
17,16 7,8
MSA 91.с.150.200 MSA 91.s.150.200
8 200
13,5 345
11,5 298,5
10,62 269,9
1,06 27
7/8 22,23
8
19,6 8,9
MSA 91.с.150.250 MSA 91.s.150.250
10 250
16 405
14,25 362
12,75 323,8
1,12 28,6
1 25,4
12
28,82 13,1
MSA 91.с.150.300 MSA 91.s.150.300
12 300
19 485
17 431,8
15 381
1,19 30,2
1 25,4
12
43,34 19,7
MSA 91.с.150.350 MSA 91.s.150.350
14 350
21 535
18,75 476,3
16,25 412,8
1,31 33,4
1 1/8 28,58
12
55,22 25,1
MSA 91.с.150.400 MSA 91.s.150.400
16 400
23,5 595
21,25 539,8
18,5 469,9
1,38 35
1 1/8 28,58
16
73 33,2
MSA 91.с.150.450 MSA 91.s.150.450
18 450
25 635
22,75 577,9
21 533,4
1,5 38,1
1 1/4 31,75
16
98 44,5
MSA 91.с.150.500 MSA 91.s.150.500
20 500
27,5 700
25 635
23 584,2
1,62 41,3
1 1/4 31,75
20
189,2 86
MSA 91.с.150.600 MSA 91.s.150.600
24 600
32 815
29,5 749,3
27,25 692,2
1,81 46,1
1 3/8 34,93
20
290 131,6
MSA 91.c MSA 91.s
DIMENSIONS & WEIGHT
Note: MSA 91.c —carbon steel flange design MSA 91.s —stainless steel flange design
83
Flange DIMENSIONS & WEIGHT ANSI Class 300 in/mm
Code
lb/kg
NPS/DN
D
D1
D2
T
d
n
Weight
MSA 91.с.300.015 MSA 91.s.300.015
½ 15
3,75 95
2,62 66,7
1,38 34,9
0,5 12,7
5/8 15,88
4
1,38 0,63
MSA 91.с.300.020 MSA 91.s.300.020
¾ 20
4,62 115
3,25 82,6
1,69 42,9
0,56 14,3
3/4 19,05
4
2,61 1,19
MSA 91.с.300.025 MSA 91.s.300.025
1 25
4,88 125
3,5 88,9
2 50,8
0,62 15,9
3/4 19,05
4
2,77 1,26
MSA 91.с.300.032 MSA 91.s.300.032
1¼ 32
5,25 135
3,88 98,4
2,5 63,5
0,69 17,5
3/4 19,05
4
3,8 1,72
MSA 91.с.300.040 MSA 91.s.300.040
1½ 40
6,12 155
4,5 114,3
2,88 73
0,75 19,1
7/8 22,23
4
5,1 2,34
MSA 91.с.300.050 MSA 91.s.300.050
2 50
6,5 165
5 127
3,62 92,1
0,81 20,7
3/4 19,05
8
7,0 3,19
MSA 91.с.300.065 MSA 91.s.300.065
2½ 65
7,5 190
5,88 149,2
4,12 104,8
0,94 23,9
7/8 22,23
8
8,5 3,86
MSA 91.с.300.080 MSA 91.s.300.080
3 80
8,25 210
6,62 168,3
5 127
1,06 27
7/8 22,23
8
11,22 5,1
MSA 91.с.300.091 MSA 91.s.300.091
3½ 90
9 230
7,25 184,2
5,5 139,7
1,12 28,6
7/8 22,23
8
14,85 6,75
MSA 91.с.300.100 MSA 91.s.300.100
4 100
10 255
7,88 200
6,19 157,2
1,19 30,2
7/8 22,23
8
17,38 7,9
MSA 91.с.300.125 MSA 91.s.300.125
5 125
11 280
9,25 235
7,31 185,7
1,31 33,4
7/8 22,23
8
23,3 10,6
MSA 91.с.300.150 MSA 91.s.300.150
6 150
12,5 320
10,62 269,9
8,5 215,9
1,38 35
7/8 22,23
12
31,9 14,5
MSA 91.с.300.200 MSA 91.s.300.200
8 200
15 380
13 330,2
10,62 269,9
1,56 39,7
1 25,4
12
42,46 19,3
MSA 91.с.300.250 MSA 91.s.300.250
10 250
17,5 445
15,52 387,4
12,75 323,8
1,81 46,1
1 1/8 28,58
16
71,6 32,3
MSA 91.с.300.300 MSA 91.s.300.300
12 300
20,5 520
17,75 450,8
15 381
1,94 49,3
1 1/4 31,75
16
110,7 50,3
MSA 91.с.300.350 MSA 91.s.300.350
14 350
23 585
20,25 514,4
16,25 412,8
2,06 52,4
1 1/4 31,75
20
192,6 87,3
MSA 91.с.300.400 MSA 91.s.300.400
16 400
25,5 650
22,5 571,5
18,5 469,9
2,19 55,6
1 3/8 34,93
20
146,3 66,5
MSA 91.с.300.450 MSA 91.s.300.450
18 450
28 710
24,75 628,6
21 533,4
2,31 58,8
1 3/8 34,93
24
176,2 80,1
MSA 91.с.300.500 MSA 91.s.300.500
20 500
30,5 775
27 685,8
23 584,2
2,44 62
1 3/8 34,93
24
202,4 92,6
MSA 91.с.300.600 MSA 91.s.300.600
24 600
36 915
32 812,8
27,25 692,2
2,69 68,3
1 5/8 41,3
24
295 134
Note: MSA 91.c — carbon steel flange design MSA 91.s — stainless steel flange design
84
We reserve the right to make modification without prior notice.
ANSI Class 400 in/mm
Code
lb/kg
NPS/DN
D
D1
D2
T
d
n
Weight
MSA 91.с.400.015 MSA 91.s.400.015
½ 15
3,75 95
2,62 66,7
1,38 34,9
0,56 14,3
5/8 15,88
4
1,5 0,68
MSA 91.с.400.020 MSA 91.s.400.020
¾ 20
4,62 115
3,25 82,6
1,69 42,9
0,62 15,9
3/4 19,05
4
2,53 1,15
MSA 91.с.400.025 MSA 91.s.400.025
1 25
4,88 125
3,5 88,9
2 50,8
0,69 17,5
3/4 19,05
4
2,8 1,29
MSA 91.с.400.032 MSA 91.s.400.032
1¼ 32
5,25 135
3,88 98,4
2,5 63,5
0,81 20,7
3/4 19,05
4
4,47 2,03
MSA 91.с.400.040 MSA 91.s.400.040
1½ 40
6,12 155
4,5 114,3
2,88 73
0,88 22,3
7/8 22,23
4
6,0 2,73
MSA 91.с.400.050 MSA 91.s.400.050
2 50
6,5 165
5 127
3,62 92,1
1 25,4
3/4 19,05
8
7,43 3,38
MSA 91.с.400.065 MSA 91.s.400.065
2½ 65
7,5 190
5,88 149,2
4,12 104,8
1,13 28,6
7/8 22,23
8
10,12 4,6
MSA 91.с.400.080 MSA 91.s.400.080
3 80
8,25 210
6,62 168,3
5 127
1,25 31,8
7/8 22,23
8
13,31 6,05
MSA 91.с.400.091 MSA 91.s.400.091
3½ 90
9 230
7,25 184,2
5,5 139,7
1,38 35
1 25,4
8
18,2 8,26
MSA 91.с.400.100 MSA 91.s.400.100
4 100
10 255
7,88 200
6,19 157,2
1,38 35
1 25,4
8
20,1 9,15
MSA 91.с.400.125 MSA 91.s.400.125
5 125
11 280
9,25 235
7,31 185,7
1,5 38,1
1 25,4
8
26,6 12,08
MSA 91.с.400.150 MSA 91.s.400.150
6 150
12,5 320
10,62 269,9
8,5 215,9
1,62 41,3
1 25,4
12
37,62 17,1
MSA 91.с.400.200 MSA 91.s.400.200
8 200
15 380
13 330
10,62 269,9
1,88 47,7
1 1/8 28,58
12
51,04 23,2
MSA 91.с.400.250 MSA 91.s.400.250
10 250
17,5 445
15,52 387,4
12,75 323,8
2,12 54
1 1/4 31,75
16
75,9 34,5
MSA 91.с.400.300 MSA 91.s.400.300
12 300
20,5 520
17,75 450,8
15 381
2,25 57,2
1 3/8 34,93
16
101 45,9
MSA 91.с..400.350 MSA 91.s..400.350
14 350
23 585
20,25 514,4
16,25 412,8
2,38 60,4
1 3/8 34,93
20
127,8 58,1
MSA 91.с.400.400 MSA 91.s.400.400
16 400
25,5 650
22,5 571,5
18,5 469,9
2,5 63,5
1 1/2 38,1
20
166,1 75,5
MSA 91.с.400.450 MSA 91.s.400.450
18 450
28 710
24,75 628,6
21 533,4
2,62 66,7
1 1/2 38,1
24
200 90,9
MSA 91.с.400.500 MSA 91.s.400.500
20 500
30,5 775
27 685,8
23 584,2
2,75 69,9
1 5/8 41,3
24
229 104,1
MSA 91.с.400.600 MSA 91.s.400.600
24 600
36 915
32 812,8
27,25 692,2
3 76,2
1 7/8 47,63
24
338,8 154
MSA 91.c MSA 91.s
DIMENSIONS & WEIGHT
Note: MSA 91.c — carbon steel flange design MSA 91.s — stainless steel flange design
85
Flange DIMENSIONS & WEIGHT ANSI Class 600 in/mm
Code
lb/kg
NPS/DN
D
D1
D2
T
d
n
Weight
MSA 91.с.600.015 MSA 91.s.600.015
½ 15
3,75 95
2,62 66,7
1,38 34,9
0,56 14,3
5/8 15,88
4
1,56 0,71
MSA 91.с.600.020 MSA 91.s.600.020
¾ 20
4,62 115
3,25 82,6
1,69 42,9
0,62 15,9
3/4 19,05
4
2,53 1,15
MSA 91.с.600.025 MSA 91.s.600.025
1 25
4,88 125
3,5 88,9
2 50,8
0,69 17,5
3/4 19,05
4
3,06 1,39
MSA 91.с.600.032 MSA 91.s.600.032
1¼ 32
5,25 135
3,88 98,4
2,5 63,5
0,81 20,7
3/4 19,05
4
4,84 2,2
MSA 91.с.600.040 MSA 91.s.600.040
1½ 40
6,12 155
4,5 114,3
2,88 73
0,88 22,3
7/8 22,23
4
6,0 2,73
MSA 91.с.600.050 MSA 91.s.600.050
2 50
6,5 165
5 127
3,62 92,1
1 25,4
3/4 19,05
8
7,4 3,38
MSA 91.с.600.065 MSA 91.s.600.065
2½ 65
7,5 190
5,88 149,2
4,12 104,8
1,13 28,6
7/8 22,23
8
10,12 4,6
MSA 91.с.600.080 MSA 91.s.600.080
3 80
8,25 210
6,62 168,3
5 127
1,25 31,8
7/8 22,23
8
13,2 6,0
MSA 91.с.600.090 MSA 91.s.600.090
3½ 90
9 230
7,25 184,2
5,5 139,7
1,38 35
1 25,4
8
18,26 8,3
MSA 91.с.600.100 MSA 91.s.600.100
4 100
10,75 275
8,5 215,9
6,19 157,2
1,5 38,1
1 25,4
8
26,18 11,9
MSA 91.с.600.125 MSA 91.s.600.125
5 125
13 330
10,5 266,7
7,31 185,7
1,75 44,5
1 1/8 28,58
8
41,9 19,04
MSA 91.с.600.150 MSA 91.s.600.150
6 150
14 355
11,5 292,1
8,5 215,9
1,88 47,7
1 1/8 28,58
12
47,5 21,6
MSA 91.с.600.200 MSA 91.s.600.200
8 200
16,5 420
13,75 349,2
10,62 269,9
2,19 55,6
1 1/4 31,75
12
73,7 33,5
MSA 91.с.600.250 MSA 91.s.600.250
10 250
20 510
17 431,8
12,75 323,8
2,5 63,5
1 3/8 34,93
16
110,2 50,1
MSA 91.с.600.300 MSA 91.s.600.300
12 300
22 560
19,25 489
15 381
2,62 66,7
1 3/8 34,93
20
135 61,4
MSA 91.с.600.350 MSA 91.s.600.350
14 350
23,75 605
20,75 527
16,25 412,8
2,75 69,9
1 1/2 38,1
20
170 77,3
MSA 91.с.600.400 MSA 91.s.600.400
16 400
27 685
23,75 603,2
18,5 469,9
3 76,2
1 5/8 41,3
20
220,4 100,2
MSA 91.с.600.450 MSA 91.s.600.450
18 450
29,25 745
25,75 654
21 533,4
3,25 82,6
1 3/4 44.4
20
260 118,2
MSA 91.с.600.500 MSA 91.s.600.500
20 500
32 815
28,5 723,9
23 584,2
3,5 88,9
1 3/4 44.4
24
352 160
MSA 91.с.600.600 MSA 91.s.600.600
24 600
37 940
33 838,2
27,25 692,2
4 101,6
2 50,8
24
414,5 188,4
Note: MSA 91.c — carbon steel flange design MSA 91.s — stainless steel flange design
86
We reserve the right to make modification without prior notice.
About us For notes
Lugansk plant of pipeline fittings JSC “LSE AF & SS “Specavtomatika” is one of the leading manufacturers of pipeline valves in Eastern Europe countries. Products manufactured by the plant under trade mark trade mark “MARSHAL” are used in the heat and water supplying systems, gas distribution systems; extraction, refining and storage of oil and gas in diverse industry areas. “Marshal” ball valves are notable for for their reliability, simplicity of operation, safety and lifetime. Providing partners with the high quality products is the priority of enterprise activities, which is reached by way of constant implementation of innovation technologies in the production, expanding of existing production capacity and development of pipeline fittings projecting. Special attention is given to the enterprise Quality Management System: interconnection of all enterprise departments in projecting, design, production and promotion of products enable taking into account to the maximal extent the needs of companies applying the pipeline valves when installing and servicing of pipeline systems. Quality control on every stage of production – from design to the delivery of finished products to the stock – is performed in strict compliance with the international Quality System ISO 9001:2000 and requirements of GOST (National Standard), CE and API that makes it possible to provide the quality warranties to partners in different countries of the world. The plant began the history of ball valves design and manufacturing in 1992. Since 1997 the products of plant have been represented in Russia by Trading House “Marshal”, located in Moscow. Currently JSC “LSE AF & SS “Specavtomatika” manufactures the following product range: — — — — — — — — —
sectional ball valves; all-welded ball valves; short pattern flanged ball valves (shortened face-to-face dimension); threaded end ball valves; ball valves with an extended stem; ball valves for application under high pressure for oil and gas working medium; stainless steel ball valves; cast iron and steel gauze filters; connection flanges and fasteners.
“MARSHAL” ball valves are produced for application under pressure PN 1.6; 2.5; 4.0; 10.0 MPa with bore diameters from DN 10 to DN 500 inclusive. Today “MARSHAL” ball valves are widely used in Russia, Ukraine, Belarus, Kazakhstan, Moldova, Lithuania, Latvia, Estonia, Bulgaria, Azerbaijan, Georgia. Ball valves have been supplied to the biggest companies: “Rosneft”, “GazpromRegiongaz”, “OMZ” (Uralmash-Izhora Group), “Power Machines Company”, “TverGazStroy”, “KazMunayGas”, “BolgarGaz”, “Kyivmiskbud”, “Poznyakizhilstroy”, “Alchevsk Iron & Steel Works”, “NaftoGaz of Ukraine” etc. In 2009 there was manufactured an anniversary ball valve which pointed the line of 1000000 items manufactured by the plant for the whole time of its working on the pipeline fittings market. A continuous expansion of products range complying with the customers’ requirements providing high quality rates along with reliability and safety values is one of the strategic purposes of the enterprise. It should be noted that thanks to the coordinated work of professional team on all the stages of production and distribution of products, we are ready to propose to the clients the shortest possible terms of their orders fulfillment as well as technical consulting by engineers on subject of application and conditions of our product maintenance.
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