DIGITAL FABRICATION
123![]()
![]()
![]()
![]()
![]()
![](https://freight.cargo.site/t/original/i/b20d3ecddfbea74c3204460e647f6b5033a3e88fbd22f46c199dee32c89e8c54/_MG_6524.jpg)
![](https://freight.cargo.site/t/original/i/019ae6736c8f9228836ea4b3976eaa28d1b5e41a9a642c792709071623819768/_MG_6523.jpg)
![](https://freight.cargo.site/t/original/i/723986145836a5a425ae270e2c5133f896bf2e139039899a298a7ff58ea0f927/_MG_6498.jpg)
![](https://freight.cargo.site/t/original/i/86d4ab651502bccf367f14e3088baaa2318abf3829ffe472be21681b982b8b9f/_MG_6512.jpg)
![](https://freight.cargo.site/t/original/i/f034629a5ad6d3e8b31514faf17b5ce2592e8f7966b7af8ce0235e64883ac00c/_MG_6506.jpg)
Digital Fabrication produced a series panel with silicone pattern. The pattern was designed with Grasshopper algorithms, and was executed by SCI-Arc powerful Stäubli robots. Digital articulation required Unreal Engine. In the virtual workspace, material as silicone present other various properties that we can't do in reality.
Year
2020
SCI-Arc
Digital Fabrication
Instructor:
Curime Batliner
Teammate:
Daniel Lua / Mike Huang / John Chan
Year
2020
SCI-Arc
Digital Fabrication
Instructor:
Curime Batliner
Teammate:
Daniel Lua / Mike Huang / John Chan