ELCOWIRE RAIL
PRODUCT CATALOGUE Overhead Contact Line Systems
ELCOWIRE.COM
1
OUR PASSION BRINGS POWER TO LIFE Efficient overhead contact line systems are the base for electrically powered rail and increasingly also road traffic. The ecological footprint of electric traction is considerably lower than that of Diesel traction, and this applies for electrically powered buses and trucks as well. One can firmly state that electrified rail tracks, equipped with properly dimensioned overhead contact line systems, make a significant contribution to reaching the climate targets. The dimensioning and design of an overhead contact line system and the selection of the right materials are determined by application and speed, environmental influences, frequency of passing trains and their energy demand. By choosing the right alloy and product, the efficiency of an overhead contact line system can be significantly increased regarding its electrical and mechanical performance. For operators and owners of the infrastructure this opens the opportunity to increase traffic density whilst at the same time reducing system wear, emission of CO2 and life cycle cost. Elcowire Rail offers standard materials and customized solutions aiming to support its customers in meeting their specific targets. Let us get ready for your project with the most sustainable solution!
Dr. Jan Siebert Elcowire Rail
2
Paul Gustavsson Elcowire Group
ELCOWIRE.COM
CONTENT
ELCOWIRE.COM
Products and services for Overhead Contact Line Systems
5
Flexible cable conductors made of pure copper
20
Contact wire made of pure copper and copper alloys, Valthermo and Valcond
6
Cable conductors made of copperclad steel
23
Stranded Conductors - Valthermo and Valcond with value for your application
16
Wooden drums for contact wire and cable conductors
25
Cable conductors made of Valthermo
18
Contact us / Notes
26
Reference list
29
3
SAFE TRAVEL CONDUCTORS AND WIRES FOR OVERHEAD CONTACT LINES WITH MAXIMUM LIFETIME Conductors and Wires made by Elcowire have proven records around the world in catenary systems and in overhead conductor rails for long distance and urban transportation, electric road transport and mining applications. Our product brands VALTHERMO and VALCOND will support you to increase reliability, availability, maintainability and safety (RAMS) of your transport system, whilst at the same time lowering CO2 emissions, life cycle cost (LCC) and ultimately your Total Cost of Ownership.
4
ELCOWIRE.COM
PRODUCTS AND SERVICES FOR OVERHEAD CONTACT LINE SYSTEMS ELCOWIRE OFFERS A WIDE RANGE OF PRODUCT RELATED SERVICES, SUCH AS TECHNICAL CONSULTING, TRAINING MATERIAL, PRODUCT INVESTIGATIONS, CALCULATIONS, ON-SITE MEASUREMENTS, RECOMMENDATIONS FOR MATERIAL, DRUM SELECTION AND INSTALLATION. Today’s modern rail applications put special requirements on the components and materials used in overhead contact lines*. In particular, contact and messenger wires used in these applications require increased tensioning forces, highest possible electrical conductivity and the maximum possible fatigue strength. Elcowire has developed a comprehensive portfolio of products designed to meet these challenging demands. For railways with high speed up to 400 km/h, we offer the VALCOND CuMg0,2 and CuMg0,5 contact wires. These have been specially developed to ensure maximum tensile strength with minimal wear, while providing high electrical conductivity. VALCOND means VALue by increased CONDuctivity far beyond the standards. These and other contact wires can be combined with highstrength messenger and auxiliary wires, as well as very flexible dropper wires, all made from Elcowire’s VALCOND copper alloys. Copper and copper alloys with the maximum electrical conductivity of pure copper are used as the material of choice for feeder, return and earthing conductors and for power connectors as well. Elcowire's products made of copper and lowalloyed copper alloys, offer conductivity and strength optimized according to the specifications of the overhead contact line system. We adapt the design to the requirements of the application, working together with each customer to make sure they get the optimal solution for their needs. For high-speed rail at speeds of 300 km/h and below, our VALCOND CuSn0,2 contact wires provide excellent tensile strength and conductivity. These wires are also used for local transit applications. Elcowire’s copper alloy VALTHERMO CuSn0,1 is an economically and ecologically smart replacement for contact wires and stranded conductors made from copper and copper-silver alloys. This sustainable solution is available in all common profile shapes, providing universal use for virtually any new construction and for maintenance purpose. It is typically suitable for applications of speeds up to 250 km/h. ELCOWIRE.COM
VALTHERMO products provide the maximum possible electrical conductivity and high tensile strength, with wear rates far below those of conventional copper or coppersilver solutions. At the same time, the processing properties during installation are equivalent to those of high-strength contact wires made of these conventional materials. VALTHERMO offers electrical and mechanical compatibility with copper and copper-silver products as well. The contact wires are fully compliant with the EN 50149 standard. As with CuAg0,1 contact wires, VALTHERMO requires no readjustment work in the first year after installation, since the creep strain is 2 to 3 times less than that of pure copper, but with the same full electrical conductivity. VALTHERMO offers VALue by increased THERMO-resistance to softening (recrystallization), enabling higher current carrying capacity. As a result of these characteristics, a combination of VALTHERMO contact and messenger wires gives you an ideal total solution with long life time, highest electrical conductivity and excellent thermal resistance. VALCOND and VALTHERMO are also suitable as contact wires for the electrification of road vehicles such as trolley buses or trucks. Elcowire contact wires are not only used in Railway catenary systems and single contact lines. They can also be found in rigid overhead conductor rail systems, e-highway, e-mobility systems like trolley buses and mines. Our products are an important part of numerous demanding and world-renowned projects. These include the Gotthard Base Tunnel, the Ceneri Base Tunnel, the high-speed line MadridSeville, the Sydney Metro and much more.
”
Especially for contact wires we strongly recommend to use low alloyed copper alloys like VALTHERMO and VALCOND instead of pure copper (Cu-ETP) in order to realize the most sustainable solution in new installations and for maintenance with reduced life cycle cost. Contact us for a detailed list of references and services – we would be happy to speak with you! * The requirements for overhead contact lines for electrical train transport are described in the standards EN 50119 (“Railway applications - Fixed installations - Electric traction overhead contact lines”) and IEC 60913. 5
CONTACT WIRE MADE OF PURE COPPER AND COPPER ALLOYS, VALTHERMO AND VALCOND
Cu-ETP, CuAg, CuMg and CuSn according to EN 50149 Our products can be manufactured according to european (EN), international (IEC) or individual specifications our customers are asking us for. AREAS OF APPLICATION: Contact wires for all ranges of speed on main and side lines, for all electrical systems AC or DC as well as for Metros, Trolley buses and Mining. 6
PACKING: Different drums according to the specific application.
ELCOWIRE.COM
CONTACT WIRES ACCORDING TO EN 50149 Overview of configurations and weights (selection) NOMINAL CROSS SECTION
NOMINAL WIRE-Ø CONSTRUCTION
NOMINAL WEIGHT
mm2
AC mm
BC mm
BF mm
CF mm
kg/km
80
10,60
-
-
-
711
100
12,00
12,00
11,04
13,20
889
107
12,30
12,24
11,35
-
951
120
13,20
12,85
12,27
13,20
1067
150
14,80
14,50
13,60
-
1334
All values refer to new unworn contact wires at a density of 8.890 kg/m³
CONTACT WIRES FOR EVERY SPEED AND APPLICATION Overview of materials and speed range (selection) TYPICAL MAXIMUM SPEED
MIN. ELECTRICAL CONDUCTIVITY
MIN. TENSILE STRENGTH
MIN. BREAKING LOAD
km/h
m/(Ω mm²)
N/mm²
kN
Cu-ETP (normal tensile strength)
160
≥ 56,3
330
38,4
CuAg0,1 (high tensile strength)
250
≥ 56,3
360
41,9
CuSn0,2 (normal conductivity)
350
≥ 41,8
420
48,9
CuMg0,2 (normal conductivity)
350
≥ 44,6
430
50,1
CuMg0,5
400
≥ 36,0
490
57,0
VALTHERMO CuSn0,1 (high tensile strength)
250
≥ 56,3
360
41,9
BASIC MATERIAL
Values based on a cross section of 120 mm² according to EN 50149. All values refer to new unworn contact wires.
IDENTIFICATION GROOVES ACCORDING TO EN 50149 °
Contact wires made of pure copper (Cu-ETP) do not have identification grooves. Contact wires made of copper-cadmium alloy are not allowed to have identification grooves.
ELCOWIRE.COM
Contact wires made of copper-silver alloy have two identical identification grooves on the top of the wire.
Contact wires made of copper-tin alloy have one identification groove on the top of the wire at an angle of 24° from the vertical.
Contact wires made of copper-magnesium alloy have three identification grooves on the top of the wire.
VALTHERMO contact wires have two identification grooves, one offset at an angle of 24° and one in the middle of the curve at the top of the wire (by agreement). 7
OVERVIEW OF CONTACT WIRE CHARACTERISTICS - BREAKING LOAD AND AMPACITY NOMINAL CROSS SECTION mm2
OVERVIEW 80
100
107
120
150
Cu-ETP (normal strength)
breaking load kN
27,5
34,4
36,3
38,4
45,1
Cu-ETP (normal strength)
ampacity
425
491
511
550
635
Cu-ETP (high strength)
breaking load kN
29,1
36,4
37,4
41,9
52,4
Cu-ETP (high strength)
ampacity
425
491
511
550
635
CuAg0,1 (normal strength)
breaking load kN
28,3
34,9
36,3
40,7
50,9
CuAg0,1 (normal strength)
ampacity
510
590
615
662
765
CuAg0,1 (high strength)
breaking load kN
29,1
36,4
37,4
41,9
52,4
CuAg0,1 (high strength)
ampacity
510
590
615
662
765
CuSn0,1 Valthermo (high strength) breaking load kN
29,1
36,4
37,4
41,9
52,4
CuSn0,1 Valthermo (high strength) ampacity
510
590
615
662
765
A A A A A
CuSn0,2 (normal conductivity)
breaking load kN
35,7
43,7
44,6
48,9
61,1
CuSn0,2 (normal conductivity)
ampacity
448
518
539
582
671
CuSn0,2 (high conductivity)
breaking load kN
35,7
43,7
44,6
48,9
61,1
CuSn0,2 (high conductivity)
ampacity
472
546
568
614
708
CuMg0,2 (normal conductivity)
breaking load kN
35,7
43,7
45,7
50,1
61,1
CuMg0,2 (normal conductivity)
ampacity
464
537
559
605
696
CuMg0,2 (high conductivity)
breaking load kN
35,7
43,7
45,7
50,1
61,1
CuMg0,2 (high conductivity)
ampacity
473
545
570
616
710
CuMg0,5
breaking load kN
40,4
49,5
51,9
57,0
68,4
CuMg0,5
ampacity
423
489
509
549
633
A A A A A
Ampacity calculated at wind 1 m/s, sun radiation 1000 W/m², 35°C ambient temperature, max. permanent operating temperature according to material, new contact wire Cu-ETP 80°C, Cu-alloys 100°C. All values refer to new unworn contact wires. Other specifications according to international standards and customer requirements on request.
8
ELCOWIRE.COM
CONTACT WIRE MADE OF PURE COPPER Cu-ETP ACCORDING TO EN 50149 Values for Cu-ETP (normal tensile strength) NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
355
355
350
330
310
Minimum breaking load 1)
kN
27,5
34,4
36,3
38,4
45,1
Percentage elongation after fracture
%
3-10
3-10
3-10
3-10
3-10
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 180
≥ 180
≥ 180
≥ 180
≥ 180
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
Electrical conductivity at 20 °C
% IACS
≥ 97
≥ 97
≥ 97
≥ 97
≥ 97
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
Electrical resistance per kilometre 1)
Ω/km
≤ 0,229
≤ 0,183
≤ 0,171
≤ 0,153
≤ 0,122
Temperature coefficient of electrical resistance 10¯³/K
3,8
3,8
3,8
3,8
3,8
Ampacity 3)
A
425
491
511
550
635
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,89
8,89
8,89
8,89
8,89
Minimum mass per kilometre
kg/km
690
862
923
1035
1293
Maximum mass per kilometre
kg/km
733
916
980
1099
1374
Minimum tensile strength 2)
Values for Cu-ETP (high tensile strength) NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
375
375
360
360
360
kN
29,1
36,4
37,4
41,9
52,4
Percentage elongation after fracture
%
3-8
3-8
3-8
3-8
3-8
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 180
≥ 180
≥ 180
≥ 180
≥ 180
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
Electrical conductivity at 20 °C
% IACS
≥ 97
≥ 97
≥ 97
≥ 97
≥ 97
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
Electrical resistance per kilometre 1)
Ω/km
≤ 0,229
≤ 0,183
≤ 0,171
≤ 0,153
≤ 0,122
Temperature coefficient of electrical resistance 10¯³/K
3,8
3,8
3,8
3,8
3,8
Ampacity 3)
A
425
491
511
550
635
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,89
8,89
8,89
8,89
8,89
Minimum mass per kilometre
kg/km
690
862
923
1035
1293
Maximum mass per kilometre
kg/km
733
916
980
1099
1374
Minimum tensile strength 2) Minimum breaking load 1)
1) Calculated with minimum cross section. 2) Different tensile strength on request. 3) Calculated at wind 1 m/s, sun radiation 1000 W/m², 35°C ambient temperature, max. permanent operating temperature 80°C, new contact wire. All values refer to new unworn contact wires. ELCOWIRE.COM
9
CONTACT WIRE MADE OF CuAg0,1 ACCORDING TO EN 50149 Values for CuAg0,1 alloy (normal tensile strength) NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
365
360
350
350
350
kN
28,3
34,9
36,3
40,7
50,9
Percentage elongation after fracture
%
3 - 10
3 - 10
3 - 10
3 - 10
3 - 10
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 300
≥ 300
≥ 300
≥ 300
≥ 300
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
Electrical conductivity at 20 °C
% IACS
≥ 97
≥ 97
≥ 97
≥ 97
≥ 97
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
Electrical resistance per kilometre 1)
Ω/km
≤ 0,229
≤ 0,183
≤ 0,171
≤ 0,153
≤ 0,122
Temperature coefficient of electrical resistance 10¯³/K
3,8
3,8
3,8
3,8
3,8
Ampacity 3)
A
510
590
615
662
765
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,89
8,89
8,89
8,89
8,89
Minimum mass per kilometre
kg/km
690
862
923
1035
1293
Maximum mass per kilometre
kg/km
733
916
980
1099
1374
Minimum tensile strength 2) Minimum breaking load 1)
Values for CuAg0,1 alloy (high tensile strength) NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
375
375
360
360
360
Minimum tensile strength 2)
N/mm²
Minimum breaking load 1)
kN
29,1
36,4
37,4
41,9
52,4
Percentage elongation after fracture
%
3-8
3-8
3-8
3-8
3-8
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 300
≥ 300
≥ 300
≥ 300
≥ 300
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
Electrical conductivity at 20 °C
% IACS
≥ 97
≥ 97
≥ 97
≥ 97
≥ 97
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
Electrical resistance per kilometre 1)
Ω/km
≤ 0,229
≤ 0,183
≤ 0,171
≤ 0,153
≤ 0,122
Temperature coefficient of electrical resistance 10¯³/K
3,8
3,8
3,8
3,8
3,8
Ampacity 3)
510
590
615
662
765
A
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,89
8,89
8,89
8,89
8,89
Minimum mass per kilometre
kg/km
690
862
923
1035
1293
Maximum mass per kilometre
kg/km
733
916
980
1099
1374
1) Calculated with minimum cross section 2) Different tensile strength on request 3) Calculated at wind 1 m/s, sun radiation 1000 W/m², 35°C ambient teperature, max. permanent operating temperature 100°C, new contact wire All values refer to new unworn contact wires
10
ELCOWIRE.COM
°
CONTACT WIRE MADE OF VALTHERMO CuSn0,1 ACCORDING TO EN 50149 Values for VALTHERMO CuSn0,1 alloy (high tensile strength) NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
375
375
360
360
360
Minimum breaking load 1)
kN
29,1
36,4
37,4
41,9
52,4
Percentage elongation after fracture
%
3-8
3-8
3-8
3-8
3-8
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 300
≥ 300
≥ 300
≥ 300
≥ 300
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
≥ 56,3
Electrical conductivity at 20 °C
% IACS
≥ 97
≥ 97
≥ 97
≥ 97
≥ 97
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
≤ 1,777
Electrical resistance per kilometre 1)
Ω/km
≤ 0,229
≤ 0,183
≤ 0,171
≤ 0,153
≤ 0,122
Temperature coefficient of electrical resistance 10¯³/K
3,8
3,8
3,8
3,8
3,8
Ampacity 3)
A
510
590
615
662
765
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,89
8,89
8,89
8,89
8,89
Minimum mass per kilometre
kg/km
690
862
923
1035
1293
Maximum mass per kilometre
kg/km
733
916
980
1099
1374
Minimum tensile strength 2)
1) Calculated with minimum cross section. 2) Different tensile strength on request. 3) Calculated at wind 1 m/s, sun radiation 1000 W/m², 35°C ambient teperature, max. permanent operating temperature 100°C, new contact wire. All values refer to new unworn contact wires.
ELCOWIRE.COM
11
CONTACT WIRE MADE OF CuSn0,2 ACCORDING TO EN 50149 Values for CuSn0,2 alloy (normal conductivity) NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
460
450
430
420
420
kN
35,7
43,7
44,6
48,9
61,1
Percentage elongation after fracture
%
2-8
2-8
2-8
2-8
2-8
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 330
≥ 330
≥ 330
≥ 330
≥ 330
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 41,8
≥ 41,8
≥ 41,8
≥ 41,8
≥ 41,8
Electrical conductivity at 20 °C
% IACS
≥ 72
≥ 72
≥ 72
≥ 72
≥ 72
10¯⁸Ω m
≤ 2,395
≤ 2,395
≤ 2,395
≤ 2,395
≤ 2,395
Ω/km
≤ 0,309
≤ 0,247
≤ 0,231
≤ 0,206
≤ 0,165
Temperature coefficient of electrical resistance 10¯³/K
3,2
3,2
3,2
3,2
3,2
Ampacity 3)
A
448
518
539
582
671
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,92
8,92
8,92
8,92
8,92
Minimum mass per kilometre
kg/km
692
865
926
1038
1298
Maximum mass per kilometre
kg/km
735
919
983
1103
1378
Minimum tensile strength 2) Minimum breaking load
1)
Electrical resistivity at 20 °C Electrical resistance per kilometre
1)
Values for CuSn0,2 alloy (high conductivity) VALCOND NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
460
450
430
420
420
kN
35,7
43,7
44,6
48,9
61,1
Percentage elongation after fracture
%
2-8
2-8
2-8
2-8
2-8
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 330
≥ 330
≥ 330
≥ 330
≥ 330
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 46,4
≥ 46,4
≥ 46,4
≥ 46,4
≥ 46,4
Electrical conductivity at 20 °C
% IACS
≥ 80
≥ 80
≥ 80
≥ 80
≥ 80
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 2,155
≤ 2,155
≤ 2,155
≤ 2,155
≤ 2,155
Electrical resistance per kilometre 1)
Ω/km
≤ 0,278
≤ 0,222
≤ 0,208
≤ 0,185
≤ 0,148
Temperature coefficient of electrical resistance 10¯³/K
3,2
3,2
3,2
3,2
3,2
Ampacity 3)
A
472
546
568
614
708
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,92
8,92
8,92
8,92
8,92
Minimum mass per kilometre
kg/km
692
865
926
1038
1298
Maximum mass per kilometre
kg/km
735
919
983
1103
1378
Minimum tensile strength 2) Minimum breaking load 1)
1) Calculated with minimum cross section. 2) Different tensile strength on request. 3) Calculated at wind 1 m/s, sun radiation 1000 W/m², 35°C ambient teperature, max. permanent operating temperature 100°C, new contact wire. All values refer to new unworn contact wires.
12
ELCOWIRE.COM
CONTACT WIRE MADE OF CuMg0,2 ACCORDING TO EN 50149 Values for CuMg0,2 alloy (normal conductivity) NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
460
450
440
430
420
kN
35,7
43,7
45,7
50,1
61,1
Percentage elongation after fracture
%
3 - 10
3 - 10
3 - 10
3 - 10
3 - 10
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 370
≥ 370
≥ 370
≥ 370
≥ 370
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 44,6
≥ 44,6
≥ 44,6
≥ 44,6
≥ 44,6
Electrical conductivity at 20 °C
% IACS
≥ 77
≥ 77
≥ 77
≥ 77
≥ 77
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 2,240
≤ 2,240
≤ 2,240
≤ 2,240
≤ 2,240
Electrical resistance per kilometre 1)
Ω/km
≤ 0,289
≤ 0,231
≤ 0,216
≤ 0,192
≤ 0,154
Temperature coefficient of electrical resistance 10¯³/K
3,1
3,1
3,1
3,1
3,1
Ampacity 3)
A
464
537
559
605
696
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,89
8,89
8,89
8,89
8,89
Minimum mass per kilometre
kg/km
690
862
923
1035
1293
Maximum mass per kilometre
kg/km
733
916
980
1099
1374
Minimum tensile strength 2) Minimum breaking load
1)
Values for CuMg0,2 alloy (high conductivity) VALCOND NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
460
450
440
430
420
kN
35,7
43,7
45,7
50,1
61,1
Percentage elongation after fracture
%
3 - 10
3 - 10
3 - 10
3 - 10
3 - 10
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 370
≥ 370
≥ 370
≥ 370
≥ 370
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 46,4
≥ 46,4
≥ 46,4
≥ 46,4
≥ 46,4
Electrical conductivity at 20 °C
% IACS
≥ 80
≥ 80
≥ 80
≥ 80
≥ 80
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 2,155
≤ 2,155
≤ 2,155
≤ 2,155
≤ 2,155
Electrical resistance per kilometre 1)
Ω/km
≤ 0,278
≤ 0,222
≤ 0,208
≤ 0,185
≤ 0,148
Temperature coefficient of electrical resistance 10¯³/K
3,1
3,1
3,1
3,1
3,1
Ampacity 3)
A
473
545
570
616
710
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,89
8,89
8,89
8,89
8,89
Minimum mass per kilometre
kg/km
690
862
923
1035
1293
Maximum mass per kilometre
kg/km
733
916
980
1099
1374
Minimum tensile strength 2) Minimum breaking load
1)
1) Calculated with minimum cross section. 2) Different tensile strength on request. 3) Calculated at wind 1 m/s, sun radiation 1000 W/m², 35°C ambient teperature, max. permanent operating temperature 100°C, new contact wire. All values refer to new unworn contact wires. ELCOWIRE.COM
13
CONTACT WIRE MADE OF CuMg0,5 ACCORDING TO EN 50149 Values for CuMg0,5 alloy (normal conductivity) NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
520
510
500
490
470
Minimum breaking load 1)
kN
40,4
49,5
51,9
57,0
68,4
Percentage elongation after fracture
%
3 - 10
3 - 10
3 - 10
3 - 10
3 - 10
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 375
≥ 375
≥ 375
≥ 375
≥ 375
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 36,0
≥ 36,0
≥ 36,0
≥ 36,0
≥ 36,0
Electrical conductivity at 20 °C
% IACS
≥ 62
≥ 62
≥ 62
≥ 62
≥ 62
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 2,778
≤ 2,778
≤ 2,778
≤ 2,778
≤ 2,778
Electrical resistance per kilometre 1)
Ω/km
≤ 0,358
≤ 0,286
≤ 0,268
≤ 0,239
≤ 0,191
Temperature coefficient of electrical resistance 10¯³/K
2,7
2,7
2,7
2,7
2,7
Ampacity 3)
A
423
489
509
549
633
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,89
8,89
8,89
8,89
8,89
Minimum mass per kilometre
kg/km
690
862
923
1035
1293
Maximum mass per kilometre
kg/km
733
916
980
1099
1374
Minimum tensile strength 2)
1) Calculated with minimum cross section. 2) Different tensile strength on request. 3) Calculated at wind 1 m/s, sun radiation 1000 W/m², 35°C ambient teperature, max. permanent operating temperature 80°C, new contact wire. All values refer to new unworn contact wires.
14
ELCOWIRE.COM
CONTACT WIRE MADE OF CuMg0,5 VALCOND ACCORDING TO EN 50149 Values for CuMg0,5 alloy (high conductivity) VALCOND NOMINAL CROSS SECTION mm2
TECHNICAL DATA 80
100
107
120
150
N/mm²
520
510
500
490
470
Minimum breaking load 1)
kN
40,4
49,5
51,9
57,0
68,4
Percentage elongation after fracture
%
3 - 10
3 - 10
3 - 10
3 - 10
3 - 10
Elastic modulus
kN/mm²
120
120
120
120
120
Half hard temperature
°C
≥ 375
≥ 375
≥ 375
≥ 375
≥ 375
Electrical conductivity at 20 °C
m/(Ω mm²)
≥ 41,8
≥ 41,8
≥ 41,8
≥ 41,8
≥ 41,8
Electrical conductivity at 20 °C
% IACS
≥ 72
≥ 72
≥ 72
≥ 72
≥ 72
Electrical resistivity at 20 °C
10¯⁸Ω m
≤ 2,395
≤ 2,395
≤ 2,395
≤ 2,395
≤ 2,395
Electrical resistance per kilometre 1)
Ω/km
≤ 0,309
≤ 0,247
≤ 0,231
≤ 0,206
≤ 0,165
Temperature coefficient of electrical resistance 10¯³/K
2,7
2,7
2,7
2,7
2,7
Ampacity 3)
A
455
526
548
592
682
Temperature coefficient of linear expansion
10¯⁵/K
1,7
1,7
1,7
1,7
1,7
Density
10³kg/m³
8,89
8,89
8,89
8,89
8,89
Minimum mass per kilometre
kg/km
690
862
923
1035
1293
Maximum mass per kilometre
kg/km
733
916
980
1099
1374
Minimum tensile strength 2)
1) Calculated with minimum cross section. 2) Different tensile strength on request. 3) Calculated at wind 1 m/s, sun radiation 1000 W/m², 35°C ambient teperature, max. permanent operating temperature 100°C, new contact wire. All values refer to new unworn contact wires.
ELCOWIRE.COM
15
STRANDED CONDUCTORS VALTHERMO AND VALCOND WITH VALUE FOR YOUR APPLICATION Ask us for your product of choice - standard, VALUE or customized!
OVERVIEW STRANDED CONDUCTORS CHARACTERISTICS
NOMINAL CROSS SECTION
REAL CROSS SECTION
NUMBER OF WIRES
CALCULATED BREAKING LOAD
WIRE Ø
AMPACITY 1)
mm
Cu-ETP kN
BzII kN
Valthermo kN
Cu-ETP A
BzII A
Valthermo A
7
1,35
4,02
5,88
4,09
118
117
141
15,89
7
1,70
6,37
9,33
6,49
157
156
188
25
24,25
7
2,10
9,72
14,24
9,91
205
204
245
35
34,36
7
2,50
13,77
20,17
14,04
256
254
306
50
49,48
7
3,00
19,84
28,58
20,21
322
321
385
50
48,35
19
1,80
19,38
28,39
19,75
318
316
380
70
65,81
19
2,10
26,38
38,64
26,88
386
385
462
95
93,27
19
2,50
37,39
54,76
38,10
481
480
577
120
116,99
19
2,80
46,9
67,57
47,79
555
554
666
150
147,11
37
2,25
58,98
86,37
60,09
642
642
771
185
181,62
37
2,50
72,81
106,63
74,19
732
733
881
240
242,54
61
2,25
97,23
142,40
99,08
880
883
1060
300
299,43
61
2,50
120,04
175,80
122,32
1005
1008
1212
400
400,14
61
2,89
160,42
231,12
163,46
1207
1214
1458
500
499,83
61
3,23
200,38
288,70
201,33
1391
1398
1682
mm2
mm2
10
10,02
16
1) According to EN50119 guide values for ampacity are calculated at max. temperature 80 °C for Cu-ETP and 100 °C for Bz II and Valthermo. wind 1 m/s, sun radiation 1000 W/m², 35°C ambient temperature. All values refer to new stranded conductor..Other specifications according to international standards and customer requirements on request.
16
ELCOWIRE.COM
CABLE CONDUCTORS MADE OF PURE COPPER (Cu-ETP) Overview Cable conductors made of pure copper (Cu-ETP) according to DIN 48201 part 1 NOMINAL CROSS SECTION
REAL CROSS SECTION
NUMBER OF WIRES
WIRE Ø
CONDUCTOR Ø
WEIGHT
CALCULATED BREAKING LOAD
ELECTRICAL RESISTANCE
AMPACITY 1)
mm
mm
kg/km
kN
Ω/km
A
mm²
mm²
10
10,02
7
1,35
4,1
90
4,02
1,805
90
16
15,89
7
1,70
5,1
143
6,37
1,138
125
25
24,25
7
2,10
6,3
218
9,72
0,746
160
35
34,36
7
2,50
7,5
310
13,77
0,526
200
50
49,48
7
3,00
9,0
446
19,84
0,366
250
50
48,35
19
1,80
9,0
437
19,38
0,376
250
70
65,81
19
2,10
10,5
596
26,38
0,276
310
95
93,27
19
2,50
12,5
845
37,39
0,195
380
120
116,99
19
2,80
14,0
1060
46,90
0,155
440
150
147,11
37
2,25
15,8
1337
58,98
0,124
510
185
181,62
37
2,50
17,5
1649
72,81
0,100
585
240
242,54
61
2,25
20,3
2209
97,23
0,075
700
300
299,43
61
2,50
22,5
2725
120,04
0,061
800
400
400,14
61
2,89
26,0
3640
160,42
0,046
960
500
499,83
61
3,23
29,1
4545
200,38
0,037
1110
Overview Cable conductors made of bronze BzII (CuMg) according to DIN 48201 part 2 NOMINAL CROSS SECTION
REAL CROSS SECTION
NUMBER OF WIRES
WIRE Ø
CONDUCTOR Ø
WEIGHT
CALCULATED ELECTRICAL BREAKING LOAD RESISTANCE
mm
mm
kg/km
kN
AMPACITY 1)
mm²
mm²
10
10,02
7
1,35
4,1
90
5,88
2,811
75
16
15,89
7
1,70
5,1
143
9,33
1,773
100
25
24,25
7
2,10
6,3
218
14,24
1,162
130
35
34,36
7
2,50
7,5
310
20,17
0,82
160
50
49,48
7
3,00
9,0
446
28,58
0,569
200
50
48,35
19
1,80
9,0
437
28,39
0,585
200
70
65,81
19
2,10
10,5
596
38,64
0,43
245
95
93,27
19
2,50
12,5
845
54,76
0,303
305
120
116,99
19
2,80
14,0
1060
67,57
0,242
350
150
147,11
37
2,25
15,8
1337
86,37
0,193
410
185
181,62
37
2,50
17,5
1649
106,63
0,156
465
240
242,54
61
2,25
20,3
2209
142,40
0,117
560
300
299,43
61
2,50
22,5
2725
175,80
0,095
635
400
400,14
61
2,89
26,0
3640
231,12
0,071
765
500
499,83
61
3,23
29,1
4545
288,70
0,057
880
Ω/km
A
1) Guide values for ampacity valid up to 60 Hz at wind speed of 0,6m/s and sun radiation of 1000W/m², ambient temperature of 35°C and permanent conductor temperature of 70°C according to DIN 48201-1. Calculation for other conditions on request. 2) All values refer to new stranded conductor.
ELCOWIRE.COM
17 17
CABLE CONDUCTORS MADE OF VALTHERMO
18
ELCOWIRE.COM
OVERVIEW THERMORESISTANT STRANDED CONDUCTORS VALTHERMO MAINLY ACCORDING TO DIN 48201 NOMINAL CROSS SECTION
REAL CROSS SECTION
NUMBER OF WIRES
WIRE Ø
CONDUCTOR Ø
WEIGHT
CALCULATED ELECTRICAL BREAKING LOAD RESISTANCE
mm
mm
kg/km
kN
Ω/km
A
AMPACITY 1)
mm²
mm²
10
10,02
7
1,35
4,1
90
4,09
1,816
141
16
15,89
7
1,70
5,1
143
6,49
1,145
188
25
24,25
7
2,10
6,3
218
9,91
0,750
245
35
34,36
7
2,50
7,5
309
14,04
0,529
306
50
49,48
7
3,00
9,0
446
20,21
0,368
385
50
48,35
19
1,80
9,0
438
19,75
0,378
380
70
65,81
19
2,10
10,5
596
26,88
0,278
462
95
93,27
19
2,50
12,5
844
38,10
0,196
577
120
116,99
19
2,80
14,0
1059
47,79
0,156
666
150
147,11
37
2,25
15,8
1335
60,09
0,125
771
185
181,62
37
2,50
17,5
1648
74,19
0,101
881
240
242,54
61
2,25
20,3
2204
99,08
0,076
1060
300
299,43
61
2,50
22,5
2721
122,32
0,061
1212
400
400,14
61
2,89
26,0
3636
163,46
0,046
1458
500
499,83
61
3,23
29,1
4542
201,33
0,037
1682
1) Guide values for ampacity calculated at wind 1 m/s, sun radiation 1000 W/m², 35°C ambient teperature, max. permanent operating temperature 100°C. Calculation for other conditions on request. All values refer to new stranded conductor. Other specifications according to international standards and customer requirements on request.
”
Join us for sustainability and efficiency: High Thermal Resistance at highest Electrical Conductivity - VALTHERMO. Be prepared for the traffic of the future! ELCOWIRE.COM
19
FLEXIBLE CABLE CONDUCTORS MADE OF PURE COPPER (Cu-ETP) AND BRONZE BZII (CuMg) according to DIN 43138 APPLICATIONS/VERSIONS: Bare conductors Flexible cables Flexible strands Jumpers
DESIGN: Bare, hard drawn, thermally treated
ALLOYS: Cu- ETP, Bz, CuAg and other copper alloys according to customer request
PACKING: Different drums according to the specific application
20
ELCOWIRE.COM
FLEXIBLE CABLE CONDUCTORS MADE OF PURE COPPER (Cu-ETP) AND BRONZE BZII (CuMg) ACCORDING TO DIN 43138 Overview Flexible cable conductors made of pure copper (Cu-ETP) according to DIN 43138 NOMINAL CROSS SECTION
mm²
REAL CROSS SECTION
NUMBER OF WIRES
mm²
WIRE Ø
CONDUCTOR Ø
WEIGHT
TENSILE STRENGTH SINGLE WIRES
mm
mm
kg/km
N/mm²
0,6 m/s A
1 m/s A
AMPACITY 1) WINDSPEED
16
16,3
49
0,65
5,9
152
< 300
135
155
25
26,1
133
0,50
7,5
246
< 300
180
205
35
37,6
133
0,60
9,0
353
< 300
225
255
50
51,2
133
0,70
10,5
482
< 300
280
310
70
72,7
189
0,70
13,0
685
< 300
340
370
95
99,7
259
0,70
14,7
935
< 300
420
460
120
118,5
336
0,67
16,4
1120
< 300
485
535
150
150,9
392
0,70
18,3
1420
< 300
570
625
185
185,1
525
0,67
20,4
1745
< 300
660
720
210
209,8
595
0,67
21,5
1980
< 300
720
780
240
245,2
637
0,70
23,1
2320
< 300
785
850
300
296,6
637
0,77
25,4
2800
< 300
895
970
1) Guide values for ampacity are valid up to 60 Hz at the given wind speed and sun impact for ambient temperature of 40 °C and a final permanent temperature of the conductor of 80 °C. Remark: The outer layer is right-handed (Z). All values refer to new stranded conductorn. Other specifications according to international standards and customer requirements on request.
Overview Flexible cable conductors made of bronze BzII (CuMg) according to DIN 43138 NOMINAL CROSS SECTION
mm²
REAL CROSS SECTION
NUMBER OF WIRES
mm²
WIRE Ø
CONDUCTOR Ø
WEIGHT
TENSILE STRENGTH SINGLE WIRES
mm
mm
kg/km
N/mm²
10
9,6
49
0,50
4,5
89
≥ 589
16
16,3
49
0,65
5,9
152
≥ 589
16
16,3
84
0,50
6,2
152
≥ 589
25
26,1
133
0,50
7,5
246
≥ 589
35
37,6
133
0,60
9,0
353
≥ 589
Remark: The outer layer is right-handed (Z). All values refer to new stranded conductor. Other specifications according to international standards and customer requirements on request.
ELCOWIRE.COM
21
CABLE CONDUCTORS MADE OF COPPER-CLAD STEEL ACCORDING TO DIN 48201 PART 7 Overview Cable conductors made of copper-clad steel (Staku) according to DIN 48201 part 7
StaKu I/30
Staku II/30
NOMINAL CROSS SECTION
REAL CROSS SECTION
mm²
mm²
NUMBER OF WIRES
WIRE Ø
CONDUCTOR Ø
WEIGHT 2)
CALCULATED BREAKING LOAD
AMPACITY 1)
mm
mm
kg/km
kN
A
6
6,81
3
1,70
3,7
56
4,32
40
10
10,39
3
2,10
4,5
85
6,58
56
16
15,89
7
1,70
5,1
131
10,07
75
25
24,25
7
2,10
6,3
200
25,76
90
35
34,36
7
2,50
7,5
284
33,95
112
50 3)
49,48
7
3,00
9,0
409
47,05
140
50 3)
48,35
19
1,80
9,0
400
51,80
140
70
65,81
19
2,10
10,5
545
69,90
170
95
93,27
19
2,50
12,5
774
92,15
213
120
116,99
19
2,80
14,0
971
115,59
244
1) Guide values for ampacity valid up to 60 Hz at wind speed of 0,6m/s and sun radiation of 1000W/m², ambient temperature of 35°C and permanent conductor temperature of 80°C according to DIN 48201-7. Calculation for other conditions on request. 2) The cable weights are calculated on a density of 8.150 kg/m³ for Staku I and II with a conductivity of ≈ 30 % of a wire made of soft annealed copper; on a density of 8.200 kg/m3 for Staku I and II with a conductivity of ≈ 40 % of a wire made of soft annealed copper and a medium regular twist length of lay. The medium regular twist length of lay is defined by the arithmetic average of minimum and maximum values of the values for the regular twist length of lay in the standards concerned. 3) For cables with a nominal cross section of 50 mm² the number of wires has to be specified in the order. All values refer to new stranded conductor Other constructions: e. g. Staku II/30, Staku I/40, Staku II/40 or international standards and customer specifications on request.
22
ELCOWIRE.COM
CABLE CONDUCTORS MADE OF COPPER-CLAD STEEL according to DIN 48201 part 7 APPLICATIONS/VERSIONS: Anchoring cables Cable conductors (messenger wire) Lightning protection cables Feeder cables Rail and track connectors Anchoring systems for street lighting ELCOWIRE.COM
DESIGN: Bare PACKING: In coils, on drums made of wood or steel
23
OVERVIEW WOODEN DRUMS BASED ON DIN 43139 FOR CONTACT WIRE 1) DRUM TYPE
FLANGE Ø
CORE Ø
CENTER HOLE
DRIVER HOLE
DRIVER HOLE GAP
WIDTH
WINDING WIDTH
DRUM WEIGHT"
MAXIMUM LOAD 2)
d1 mm
d2 mm
d4 mm
d5 mm
e1 mm
l1 mm
l2 mm
kg
kg
F14
1400
1000
80
50
400
700
560
180
2000
F16
1600
1000
80
50
400
700
560
270
3000
F18
1800
1500
80
50
400
700
560
320
2000
1) other drum specification and seaworthy packing on request, also steel drums 2) We would be happy to give support for the optimization of drum selection for your equipment
OVERVIEW WOODEN SPOOLS BASED ON DIN 46391, E. G. FOR CABLE CONDUCTORS 1) DRUM TYPE
FLANGE Ø
CORE Ø
CENTER HOLE
DRIVER HOLE
DRIVER HOLE GAP
WIDTH
WINDING WIDTH
DRUM WEIGHT"
MAXIMUM LOAD 2)
d1 mm
d2 mm
d4 mm
d5 mm
e1 mm
l1 mm
l2 mm
kg
kg
89
800
400
80
40
100
532
400
30
400
109
1000
500
80
50
160
632
500
70
900
129
1200
600
80
65
160
740
600
120
1700
149
1400
700
80
65
160
840
700
160
2000
169
1600
800
80
65
300
1060
900
250
3000
1) Other spool specification and seaworthy packing on request, also steel drums. 2) We would be happy to give support for the optimization of drum selection for your equipment.
24
ELCOWIRE.COM
WOODEN DRUMS FOR CONTACT WIRE AND SPOOLS FOR CABLE CONDUCTORS With pleasure and if demanded, our products can be manufactured according to european (EN), international (IEC) or individual standards our customers are asking us for. AREAS OF APPLICATION: Contact wire for all ranges of speed on main and side lines, for all electrical systems AC or DC as well as for Metros, Trolley buses and Mining.
ELCOWIRE.COM
PACKING: Different drums according to the specific application
25
CONTACT US
”
Our team is available to you, offering our core competencies: sales, product and quality management, application know how. Please feel free to get in touch.
JAN SIEBERT Dr.-Ing. Managing Director Tel +49 (0)347 6871 410 Mobile +49 (0)152 5873 4951 jan.siebert@elcowire.com
26
JOHANNES KALTENBACH Application Engineer Railway Elcowire Group Mobile +49 (0)1761 8508 205 johannes.kaltenbach@elcowire.com
FRANK PUPKE Dr. -Ing Product & Quality Manager Mobile +49 (0)172 2760 225 frank.pupke@elcowire.com
RICK SCHULZ Sales Manager / Head of Customer Service Mobile +49 (0)172 791 5128 rick.schulz@elcowire.com
GIANCARLO SERINELLI Sales Manager Mobile +49 (0)162 2583 866 giancarlo.serinelli@elcowire.com
HANS-PETER WIPFLER Sales Manager Mobile +46 (0)152 56326830 hans-peter.wipfler@elcowire.com
CALLE CROONA Key Account Manager Profiles & Drawn Mobile +46 (0)705 300 696 calle.croona@elcowire.com ELCOWIRE.COM
NOTES
ELCOWIRE.COM
27
REFERENCE LIST Elcowire is a supplier to many clean energy infrastructure and railway projects and Elcowire plays a key role in building a more sustainable society. The projects include the development of various interconnectors, something which forms an important part of the European Union’s vision for a greener and more unified electricity market.
28
ELCOWIRE.COM
WORLD-RENOWNED ELCOWIRE RAILWAY PROJECTS
START OF OPERATION COUNTRY
PROJECT NAME
OPERATOR
2006
Germany
Verkehrsprojekt Deutsche Bahn Deutsche Einheit Nr. 8 HSL
2007
France
Paris–Strasbourg
2008
China Beijing–Tianjin HSL CMRT
2010
Spain Madrid-Valencia HSL ADIF
2011
Finland Seinäjoki–Vaasa Väylävirasto
2011
China Beijing-Shanghai HSL CMRT
2016
Switzerland Gotthard Base Tunnel SBB Infrastruktur
2016
Spain Valladolid-Leon-Burgos HSL ADIF
2017
Spain Antequera-Granada HSL ADIF
2018
Switzerland Cenery Base Tunnel SBB Infrastruktur
2020
Spain Padralba-Ourense HSL ADIF
2020
Malaysia Gemas-Johor Bahru Malayian Railway
2021
Germany Ulm-Wendlingen HSL Deutsche Bahn
2021
Germany Electrification Südbahn Deutsche Bahn
2021
Austria Mittlern Althofen HBF ÖBB Infrastruktur
2021
Austria Graz HBF ÖBB Infrastruktur
2021
Bolivia Cochabamba LRT Municipality of Cocamba
2022
Finland Raide- Jokeri Helsinki City Transport
ELCOWIRE.COM
SNCF
29
ACCELERATE YOUR JOURNEY FOR LO
CONDUCTORS AND WIRES FOR OVERHEAD CONTACT LINES WITH SATISFIED CUSTOMERS ALL OVER THE WORLD
We take customer satisfaction seriously. It's a key factor in how we measure performance as a supplier giving us a powerful tool in our development of long-term sustainable customer relationships. It was therefore all the more meaningful when we received a NPS (Net Promoter Score) of 58, along with a CSAT (Customer Satisfaction Index) of 5
30
ELCOWIRE.COM
OWER CO2
”
MEET THE MOMENT BUILD THE FUTURE As one of the leading European suppliers of copper products, we are committed to sustainable copper sourcing. We are developing advanced technologies to provide outstanding energysaving products with maximum useful life to enable sustainable solutions. We look forward to building on this strong foundation for even stronger relationships going forward...
5,1!
ELCOWIRE.COM
31
ELCOWIRE RAIL
CONTACT Elcowire Group AB Elektrogatan 20, 251 09 Helsingborg, Sweden
V.7.21
Email: info@elcowire.com Elcowire Group | LinkedIn elcowire.com
The information provided by this catalogue constitutes general guidance. Elcowire Group assumes no responsibility or liability for any errors or omissions, or for the results obtained from the use of this information in the content of this catalogue.