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Robotic Fabrication Studio Research, AA School of Architecture TASK 01
TASK 02
A t E mTe c h , w e a c t i v e l y e x p l o r e material specific robotic fabrication potentials. In this project, zinc metal is used, focus sing on gener ati ve design, material computation and GROUP GROUP 01 fabrication. 04
TASK 03
TASK 04
TASK 05
TASK 06
TASK 07
Panel Geometry
GROUP 07
GROUP 08
GROUP 09
GROUP 10
JOIN TEAM Y
Fabrication techniques incorporate two research fields, curve folding of sheet metal and robotic incremental sheet forming. Large scale research prototypes were built to study and document the fabrication potential of sheet metal.
Global Geometry Mirror Planes
GROUP 02
GROUP 05
Mirrored Surfaces
GROUP 03
GROUP 06
GROUP 11
JOIN TEAM Y
JOIN TEAM Y
Contr ibution: M y role in this design research is physical limitation experimentation, fabrication and assembly of the components.
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Test Assembly Sequence
CONSTRUCTION SEQUENCE
Unrolled Geometry
Displacement in Z-Direction
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G04
G03
G02
G01
C01
C02
a
a
B01
B02 a
B03
a B06
B04
C03
B05
B07
C05
C04
C06
B08 C07
C09
C08
B09 G20
G19 C35
B10
B11
B12
B13 B41
G05
B14 C10
C11
B15
B17
C13
B16 C12
B20
B19
C15
B18 C14
B22
B21
C17
C16
B42
B40
C19 C18
C33
G18 C34
C32 B23
G17
G06 B25
B24
The final installation is built at the terrace of the BuroHappold office. The test experiments highlighted cer tain limitations based on sheet thickness, score depth for cur ve folding, local loading and joiner y. T he s e l imit ations ar e t aken into account for de signing the global geometry.
B29
B28
C20
B26
B31
B30
C22
C21
B27
C23
G → Ground
G09
B36
C28
B37 C29
C27
G16
B38 C30
C31
G15 B46
a C38
C37 G08
C26
B45
G11 C36
B35
B34
C25
B44
B43
G07
B33
B32
C24
B39
a
G10
B51
G14
b C39
C40 B52
a
B54 B53
C41
B → Box Section C → Component
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G12
G13
Assembly Sequence 16
Artwork Plan Unistrut fixing to beam
Padded support bonded to glass with Silicone adhesive (to be specified by contractor)
4000mm
Padded support bonded to glass with Silicone adhesive (to be specified by contractor)
86x106 L Angle
Padded support bonded to glass with Silicone adhesive (to be specified by contractor)
Angle Detail 500mm
~ 3000mm (to beginning of railing)
86x106 L Angle
Padded support bonded to glass with Silicone adhesive (to be specified by contractor)
86x106 L Angle
1500mm
Support Details
Section
Support Detail 1 - Fixing to Pier
Support Detail 2 - Support on glazing
Zinc Installation Zinc Installation Skylight High Density Padding Flashing Glazing
Skylight beam M10 Mechanical Anchor
Timber Frame 100mm
Skylight plinth. (Timber construction)
Supporting Angle Waterproofing
Support Detail 3 - Support on beam
Terrace Beam
Beam Clamps
Threaded Bar with swivel Zinc Installation
Proposed Construction Sequence
Step 4- Students to install base components at back of skylight for area that will wrap around the beam.
Step 5 - Contractor to install components that wrap around beam requiring high level access. Max weight per section = 10kg
Step 6 - Contractor to install final component connecting skylight section to beam section. Max weight = 10 kg
Step 3- Contractor to install components on roof of skylight that are hard to reach from the terrace floor. Max weight per section = 10kg
Step 3- Contractor to install components on roof of skylight that are hard to reach from the terrace floor. Max weight per section = 10kg
Step 2 - Students to install components around edge of skylight and attach them to the L-angle supports provided.
Step 1 - Students to install components around edge of skylight and attach them to the L-angle supports provided.
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