PORTFOLIO ANUBHAB DAS
CV ANUBHAB DAS
1996anubhab@gmail.com, 9560895998, New Delhi
CAREER OBJECTIVE: To establish myself as an asset to an organization which would best utilize my skills and expertise in the technical environment ACADEMICS August 2016- Present B.Arch.- Sharda University 2014-2016 CBSE 12th- S D Public School WORK EXPERIENCE Eminent Architects May-June 2019 ACADEMIC PROJECTS Designing Residence, Art Gallery, Play School, Meditation Center Hospital, Pavilion (Parametric) WORKSHOPS CONCRETE FURNITURE WORKSHOP NOIDA BRICK JAIL WORKSHOP KERELA BAMBOO CONSISTENCY WORKSHOP AUROVILLE PHOTO DOCUMENTATION AND MAPPING PONDICHERRY FILM AND VIDEO EDITING WORKSHOP ACHIEVEMENTS KERELA Patent filed for unique design using parametric- Sharda University Unit secretary (NASA)- Sharda University Live site work Awards (Pondicherry and Delhi) Special Mention at Site work, Auroville
TECHNICAL SKILLS AUTODESK AUTOCAD AUTODESK REVIT GOOGLE SKETCHUP+VRAY ADOBE PHOTOSHOP ADOBE LIGHTROOM ADOBE ILLUSTRATOR LUMION RHINO GRASSHOPPER STUDY PROGRAMS (EDUCATIONAL) Pondicherry and Auroville- 2019 Bundi, Rajasthan - 2018 COMPETITIONS 61st Zonal National Association of Students of Architecture (NASA)Punjab 60th Annual National Association of Students of Architecture (NASA)Kerala 59th Zonal National Association of Students of Architecture (NASA)Faridabad Mind Rain Design- 2017 OTHER SKILLS Communication Leadership Team work LANGUAGES English Hindi Bengali
CONTENTS
HOSPITAL BUILDING
(BROUGHT UP BY NATURE)
STUDENT CENTER
(THE UNPREDICTABLE ONE)
PARAMETRIC PAVILION
(MOULDING THE POSSIBILITTIES)
PONDICHERRY WORKSHOP (ON HAND CONSTRUCTION)
WORKING DRAWINGS
HOSPITAL BUILDING
BROUGHT UP BY NATURE
ide 7M w
In this building CSEB brick blocks have been used as they are more natural than normal bricks and the front jali work at the north facade comprises of fero cement over bamboo grid reinforcement. A typical garden is designed at the south-east part of the site to give a shaded place to go at summers and also a welcoming area for physiotherapy patients. The placement of the rooms is planned in a zig zag manner so that corridoors can be lit up through natural sunlight. Altogether it is an amalgamation of characteristics catering to both the people and the nature.
road
The goal was to provide a 200 bedded hospital in South Delhi’s one of the of busiest areas (Shukdev Vihar) with an eco-friendly building which will generate a positive vibe . The building is provided with a human friendly circulation space and simple floor plates for ease of movement in all the departments.
12M WIDE ROAD
HOSPITAL BUILDING
1
2M
WI
D
D OA R E
EMERGENCY DIAGONOSTIC OPD
GROUND FLOOR PLAN
IPD
FIRST FLOOR PLAN
IPD
SECOND FLOOR PLAN
IPD
THIRD FLOOR PLAN
STUDENT CENTER
THE UNPREDICTABLE STUDENT CENTER
7M wide road
The goal was to design a student center for the students of Sharda University. The student center is situated in the university campus at the nerve focal point. In a big university as such,every year thousands of students come in and pass out. Hence, the building design required to be steady and stable , Thus ,shipping containers have been used as the basic buildingmaterial as they can be easily moved and displaced and also be arranged in any fashion required. Additionally this material can be easily recycled and thus it will be sustainable. It creates a sense of unpredictability in terms of the shape of the building which matches the life of students in a university life full of rollercoasters.
7M wide road Entry
student center building
CONCEPT
FORM DEVELOPMENT
SECTION OF THE FRONT BLOCK
JOINARY DETAILS OF THE BUILDING
Library block
PARAMETRIC PAVILION The proposal design model of a pavilion is the direct result of an extensive exploration of various plastic sheets and their properties.the shape of the pavilion comprises of a double curved surface (which was supposed to be achieved as per the design brief).The plastic sheets,namely-polycarbonate sheet,acrylic sheets and polypropylene sheets,were subjected to hot air,provided by a heat gun and were placed in a carefully planned apparatus.This apparatus contained of numerous nails where heights was adjustable.the nails were placed in unique arrangement and gave unpredictable shapes to the sheets (placed on them)on heating.Polycarbonate turned out to be the most durable and easily mouldable material and was explored further various iterations were applied on the polycarbonate sheets which resulted in prototypes having geometries varing from being locally doubled curved to globally doubled curved.The final form is the result of grasping the nature of the material and understanding the possibilities of the apparatus.
POLYCARBONATE
MOULDING THE POSSIBILITES
APPARATUS 18MM THICK MDF BOARD OF DIM.700MM X 700 MM WITH GRID OF 50MM X 50MM IS PLACED .HAVING 14MM HIGH NAILS TO PLACE SHEET ON .4 METEL RODS OF 8MM ARE USED TO PLACE CHANNELS TO USE HEAT GUN AT A CERTAIN HEIGHT .WORKING OF THIS APPARATUS IS SYSTEMISED ACCORDING TO THE PLACEMENT OF NAILS.
MS ROAD (8MM
8 MM HEXOGONAL SCREW
8MM SCREW , 135 MM LONG
WOODEN LEGS (50X50 MM)
MDF BOARD 18 MM
Working of the apparatus
In this apparatus heating gun is appiled from the top over the channel. Basically channel is used to provide a constant height to applied heat. Nails are placed in the plywood which are adjustable to give the sheet desired shape over it when heated.
Aim- To achieve a double cuved surface with the selected material but should not be pre-defined or precasted.
Material used - Polycarbonate sheet(2mm thick). Procedure-
Taking polycarbonate sheet(2400x1200mm)
Cutting the sheet into size of (350x450mm)
Putting the sheet of apparatus on the nails arragement
M)
W
G
Elevation of the prototype achieved
Deformation in the sheet due to heating and nail arrangement in the apparatus.
PHASE 1
PHASE 2
Sheets of size 350x450mm are used without any slit on it.
Sheets of size 350x450mm are used with linear slit on it.
PHASE 3
Heating the sheet over apparatus at 600 degree celsius with a heating gun
PHASE 4
Sheets of size 350x450mm Sheets of size 350x450mm are cutted into shapes. are used with random slits on it.
Phase 1 CONSTANTS
VARIABLES
1. Grid size (450x350)mm 2. Sheet size (450x350)mm 3. Temperature of heat gun (600 degree celsius )
APPARATUS & NAIL ARRANGEMENT PLAN
APPARATUS & NAIL ARRANGEMENT PLAN
INFERENCE-
1. Height from which heat is applied. 2. Movement of heat gun 3. Time of heating per local curve .
ELAVATION OF THE PROTOTYPE
ELEVATION OF THE PROTOTYPE
1.Uncontrolled deformation. 2. Local double curved suface acheived uniformly
PRESPECTIVE VIEW OF THE PROTOTYPE
PRESPECTIVE VIEW OF THE PROTOTYPE
Phase 2 CONSTANTS 1. Grid size (450x350)mm 2. Sheet size (450x350)mm 3. Temperature of heat gun (600 degree celsius ) 4. Height from which heat is applied. 5.Nail arrangement for this phase experime nts. PRESPECTIVE VIEW OF THE PROTOTYPE
ELAVATION OF THE PROTOTYPE
APPARATUS & NAIL ARRANGEMENT PLAN
7cm
120 sec
6cm
96 sec
5cm 72 sec
4cm
48 sec
3cm 2cm
24sec
1cm
0 sec
MOVEMENT OF CHANNEL OVER APPARATUS
INFERENCE-
1.Controlled deformation 2. Local double curved suface acheived uniformly
0cm
DIA. SHOWING HEATING TIME ON THE SHEET & DEPTH OF CURVES DUE TO HEATING
Phase 3 CONSTANTS 1. Grid size (450x350)mm 2. Sheet size (450x350)mm 3. Temperature of heat gun (600 degree celsius ) 4. Height from which heat is applied. 5.Nail arrangement for this phase experime nts. PRESPECTIVE VIEW OF THE PROTOTYPE
ELAVATION OF THE PROTOTYPE
APPARATUS & NAIL ARRANGEMENT PLAN
7cm
120 sec
6cm
96 sec
5cm 72 sec
4cm
48 sec
3cm 2cm
24sec
1cm
0 sec
MOVEMENT OF CHANNEL OVER APPARATUS
0cm
DIA. SHOWING HEATING TIME ON THE SHEET & DEPTH OF CURVES DUE TO HEATING.
INFERENCE1.Flexible and controlled deformation with comparison to iteration-1.
Phase 4 CONSTANTS 1. Grid size (450x350)mm 2. Sheet size (450x350)mm 3. Temperature of heat gun (600 degree celsius ) 4. Height from which heat is applied. 5.Nail arrangement for this phase experime nts. PRESPECTIVE VIEW OF THE PROTOTYPE
ELAVATION OF THE PROTOTYPE
APPARATUS & NAIL ARRANGEMENT PLAN
7cm
120 sec
6cm
96 sec
5cm 72 sec
4cm
48 sec
3cm 2cm
24sec
1cm
0 sec
MOVEMENT OF CHANNEL OVER APPARATUS
INFERENCE-
1. Double curved surface achieved globlaly.
0cm
DIA. SHOWING HEATING TIME ON THE SHEET & DEPTH OF CURVES DUE TO HEATING
DIGITAL FABRICATION OF FINAL PROTOTYPE
FINAL PROTOTYPE
After all the experimentation in all the phases this is the final prototype with optimum results and fits best according to the need of the pavilion.It provides a clear view of the surroundings with an amazing experience of acting as a closed as well as a semi open structure. Tadao Ando’s philosophy of duality was taken as an inspiration while coming up with the design . Also by keeping our aim intact to creat a double curved surfaced pavilion we have kept norms of parametric architecture intact. LOCATION TAKEN - RUSSIA ( Senate square).
Ananlysis Daylight analysis
Summer Duration Month-July to July Day-23rd to 23rd Hour-6 am to 6 pm Avarage value of daylight-6.69hours
Radiation analysis
Summer Duration Month-June to october Day-18th to 5th Hour-6 am to 6 pm Avarage value of summer radiation-49.9hours
North east view
Winter Duration Month-January to January Day-18th to 18th Hour-8 am to 4 pm Avarage value of daylight-2.3hours
North west view
South east view
Winter Duration Month-December to March Day-7th to 1st Hour-9 am to 4 pm Avarage value of summer radiation-3.4hours
South west view
PHOTOMONTAGE OF THE
E PROTOTYPE (Elevation)
PHOTOMONTAGE O
OF THE PROTOTYPE
PONDICHERRY AUROVILLE WORKSHOP (ON HAND CONSTRUCTION )
The live site workshop was conducted at Auroville in Pondicherry. This interesting workshop was held their site called Auroyali where we aimed to make a dining hall using materials which are sustainable in nature. This workshop had two main objectives, first was to build a nature friendly structure using sustainable materials and second was to use the knowledge and expertise of an architect to build it. The workshop used sustainable materials like mud which was the main component, along with bamboo and CSEB bricks which are indeed good alternatives to modern day bricks. CSEB bricks are also called as Compressed Stabilized Earth Bricks which are sustainable in nature. The workshop also included usage of modern construction techniques like usage of Ferro Cement. The cement which helped the dining hall have a thick and firm top. This workshop let me experience both how to use architectural skills and technology at a live site and also how to use sustainable material to build a firm and steady structure
WORKING DRAWING B 24900 4355
5490 1310
BEDROOM 4400X4200
DRESSING 1500X1500
D2
1200
TOILET 2300X1500
V1
TOILET 2300X1500
V1
D2
W1
BEDROOM 4400X4200
KITCHEN 5900X3700
520
520
A'
D1
W1
BEDROOM 4400X4200
KITCHEN 5900X3700
W1
D4
D4
1275
D4
1275
D4
470465
W1
450465
13275
LIFT 1800X2500
DRESSING 1500X1500
D2
DRESSING 1500X1500
2745
D5
D5
DRESSING 1500X1500
395 300
TOILET 2300X1500
V1
W1
D1
1200
3045
TOILET 2300X1500
3001800
D4
DRAWING ROOM 4100X5100
D1
1200
4155
300 1200
3980
W2
D1
A
450
495450
2500
4315
300 1310
W1
395 300
3080
300 2210
DRAWING ROOM 4100X5100
BEDROOM 4400X4200
D2
13275
2460 1310
1200
3001800
4315
D4
V1
B
5540 2500
300 180 1200
1310
4155
450
W2
180 1200
C
A
3980
495450
D
300
3080
4355 1200
300 1090
1800 4355
1090 450
1
5540 5590
1965 2450 22500
2
3
1405
1800
5460
2330
450 1090
1800 4355
300
1090
5
4
6
B' FIRST FLOOR PLAN DISTRIBUTION DATE
PRINTS
DATE
ISSUED TO
PRINTS
REVISION NOTES
DATE
ISSUED TO
CHK'D BY
DATE
DRAWN BY
SHEET TITLE
SCALE
B 24900 4355
5490 1310
D5
D5
DRESSING 1500X1500
DRESSING 1500X1500
LIFT 1800X2500
DRESSING 1500X1500
DRESSING 1500X1500
D2
1200
3001800
D2
TOILET 2300X1500
V1
TOILET 2300X1500
V1
D2
W1
520
520
KITCHEN 5900X3700
BEDROOM 4400X4200
KITCHEN 5900X3700
W1
D4
D4
1275
D4
1275
D4
470465
W1
450465
A'
D1
W1
BEDROOM 4400X4200
13275
TOILET 2300X1500
W1
D1
2745
3045
TOILET 2300X1500
300 180 1200
BEDROOM 4400X4200
4315
D4
DRAWING ROOM 4100X5100
D1
1200
4155
300 1200
3980
W2
D1
A
450
495450
2500
3080
300 1310
W1
V1
395 300
3080
300 2210
DRAWING ROOM 4100X5100
BEDROOM 4400X4200
D2
13275
2460 1310
1200
3001800
D4
V1
B
5540 2500
395 300
1310
1200
450
W2
180 1200
4315
C
A
3980
495450
D
300
4155
4355 1200
300 1090
1
1800 4355
1090 450
2
5540 5590
1965 2450 22500
3
1405
1800
5460
2330
450 1090
5
4
1800 4355
300
1090
6
B'
DISTRIBUTION DATE
PRINTS
ISSUED TO
DATE
PRINTS
ISSUED TO
DATE
REVISION NOTES
THIRD FLOOR PLAN DRAWN BY
DATE
CHK'D BY
SCALE
SHEET TITLE
B 24900 4355
5490 1310
D5
D5
DRESSING 1500X1500
DRESSING 1500X1500
LIFT 1800X2500
DRESSING 1500X1500
DRESSING 1500X1500
D2
1200
3001800
D2
TOILET 2300X1500
V1
TOILET 2300X1500
V1
D2
W1
BEDROOM 4400X4200
KITCHEN 5900X3700
520
520
A'
D1
W1
BEDROOM 4400X4200
KITCHEN 5900X3700
W1
D4
D4
1275
D4
1275
D4
470465
W1
450465
13275
TOILET 2300X1500
W1
D1
1200
3045
V1
TOILET 2300X1500
300 180 1200
BEDROOM 4400X4200
4315
D4
DRAWING ROOM 4100X5100
D1
1200
4155
300 1200
3980
W2
D1
A
450
495450
2500
3080
300 1310
W1
395 300
3080
300 2210
DRAWING ROOM 4100X5100
BEDROOM 4400X4200
D2
13275
2460 1310
1200
3001800
4315
D4
V1
B
5540 2500
2745
1310
4155
450
W2
180 1200
C
A
3980
495450
D
300
395 300
4355 1200
300 1090
1800 4355
1090 450
1
5540 5590
1965 2450 22500
2
3
1405
1800
5460
2330
450 1090
5
4
1800 4355
300
1090
6
B' SECOND FLOOR PLAN
DISTRIBUTION DATE
PRINTS
ISSUED TO
DATE
PRINTS
ISSUED TO
DATE
REVISION NOTES
DRAWN BY
DATE
CHK'D BY
LVL +1200
SCALE
SHEET TITLE
FFL+12000 TERRIES
FFL +9000 SECOND FLOOR
FFL +6000 FIRST FLOOR
FFL +3000 GROUND FLOOR
FFL +600 PLINTH ELEVATION
FIRST FLOOR PLAN DISTRIBUTION DATE
PRINTS
ISSUED TO
DATE
PRINTS
ISSUED TO
DATE
REVISION NOTES
FFL+15150 LIFTROOM
FFL+11500 TERRIES
KITCHEN 6900X3700
150MM R.C.C SLAB 75MM BRICK BATS 20MM FLOORING 200MM DOWN BEAM
FFL +8500
LIFT 1800X2500 KITCHEN 6900X3700
FFL +5550 FIRST FLOOR
KITCHEN 6900X3700
FFL +600 PLINTH
UP
1200
W=1500 MM T = 300 MM R= 150 MM
150MM R.C.C SLAB 75MM BRICK BATS 20MM FLOORING
DN
300 1200
FFL +2550
TYPICAL PLAN SECTION BB'
DISTRIBUTION DATE
PRINTS
ISSUED TO
DATE
PRINTS
ISSUED TO
DATE
SECTION
REVISION NOTES
CHK'D BY
DATE
DRAWN BY
SCALE
SHEET TITLE
2400
LANDING
W=1500 MM T = 300 MM R= 150 MM
75 73
69
1200
STILT SECTIONAL ELEVATION
3025
71
65 63
TYPICAL PLAN
61 59 57 55 53
3025
51 49 47
SPINDLE
45
HANDRAIL
43 41 39
LANDING 37 35 33
3025
31 29 27
RISER
TOP NEWEL
TREAD
25 23
STRING
21 19 17 15
150MM R.C.C SLAB 75MM BRICK BATS 20MM FLOORING
13
9
SPINDLE
LANDING
2995
11
7
HANDRAIL
5
NEWEL CAP
3
RISE
1
TREAD
NEWEL POST
RISER
150MM R.C.C SLAB 75MM BRICK BATS 20MM FLOORING
W=1500 MM T = 300 MM R= 150 MM
STRING
CLOSE STRING NOSING BOTTOM RAIL
RUN
STAIRCASE DETAIL
STAIRCASE DETAILS DISTRIBUTION DATE
PRINTS
ISSUED TO
DATE
PRINTS
ISSUED TO
DATE
REVISION NOTES
DRAWN BY
DATE
CHK'D BY
SCALE
SHEET TITLE
UP
77
67
DN
300 1200
GROUND FLOOR
79
C'
B'
A'
C WALL MOUNTED SINK AT 775 MM
1150
C A
A
A'
B
B'
B
A'
C'
B'
WHOLE 225MM FROM BACK WALL
A
449,96
B
1150,25
450
PLAN
C
C'
PLAN
PLAN
2300
200MM RCC SLAB
200MM RCC SLAB
200MM RCC SLAB
1500
300x600 H. TILE
GLASS RIBBON
300x600 H. TILE
GLASS RIBBON
600x600 TILE
GLASS RIBBON
600x600 TILE
452,13
775
600x600 TILE
1500
50MM P.C.C
50MM P.C.C 20MM FLOORING
50MM P.C.C
20MM MORTAR
20MM MORTAR
20MM FLOORING
20MM FLOORING
20MM MORTAR SECTION CC'
SECTION BB'
ASH CONRETE FILLING
SECTION AA'
TOILET DETAILS DISTRIBUTION DATE
PRINTS
DATE
ISSUED TO
PRINTS
REVISION NOTES
DATE
ISSUED TO
CHK'D BY
DATE
SHEET TITLE
SCALE
765
DRAWN BY
470
960
640 BOTTLE PULLOUT
800
795
310
575
B
760
3035
A
40 640
510
4125
510
D
C
600 855
375
575
525
550
2330
1800
470
300
DRAWER
DRAWER
DRAWER
DRAWER
DRAWER
DRAWER
510
510
510
SECTION C ELECTRICAL
3275
SECTION C
2445
6580
PLAN
960
470
POP FALSE CEILING
G.T. P.T.
800
40
600
3040
3595
510
575
POP FALSE CEILING
DRAWER
DRAWER
DRAWER
DRAWER
600
530
1200
1800
600
530
600
SECTION B ELECTRICAL
6690
SECTION B
DISTRIBUTION DATE
PRINTS
ISSUED TO
DATE
PRINTS
ISSUED TO
DATE
REVISION NOTES
KITCHEN DETAILS DRAWN BY
DATE
CHK'D BY
SCALE
SHEET TITLE
ANUBHAB DAS 1996anubhab@gmail.com