CAADRIA 2018 Workshop: Interactive Crafts VS Digital Sculpting
Saturday, May 12, 201812 AM — Wednesday, May 16, 201812 AMMDT
| Tsinghua University, Beijing, China
Los Angeles, CA, USRelated
3D printing becomes achievable by taking advantage of industrial robot’s flexibility, accuracy and working range. As a globally well-known company, Xuberance successfully breaks the limitation of traditional 3D printed furniture and products by combining customized robotic fabrication process with refined and sophisticated design details. By utilizing the data from the visual camera and material sensors, designers can monitor material properties in real time and make constant justification to the extrusion speed of the printing nozzle and the associated movement of the robotic arm. Our software can also analyze the design geometry and assign different rate of speed, acceleration and radian approximation to the robot motion.
New design strategies such as generative design and collaborative design are enabling new ways of approaching material exploration through robotics. Typically, the outcomes of a fabrication process are predetermined, however, with the introduction of sensors, design and fabrication process may be interrupted by real-time feedback. This workshop will explore the potential for creative practitioners to adopt robotic fabrication processes augmented with the introduction of sensors. Using an inexpensive toolbox of sensors useful for digital fabrication, participants in the workshop will construct and integrate sensing apparatus into a 3D printing process to explore the role of material feedback in an on-going design process. The goal of this workshop is to investigate the possibility of complex geometrical form and intricate material textures through digital design and robotic fabrication of customized 3D printing products.
Participants’ Involvement and Learning Goal
The target of this workshop is to let participants design and fabricate 3d-Printed ceramic products. In design phase, the students will learn to make complex geometry using mesh modeling technique through Autodesk Maya and ZBrush. In fabrication phase, the students will take their design from Maya and use Rhino, Grasshopper and Kuka PRC to generate robotic fabrication commands. At the same time, the students are introduced to control varies sensors using Arduino and collect data form material like plastic melting temperature and solidification range. The ideal output of this workshop is a series of full scale 3d printed ceramic prototypes.
The students will be divided into two main groups, one group will focus on digital sculpting using Maya, Zbrush, the other group will use interactive design tools and Arduino sensors to test the possibilities of computer aided real-time crafts. At the end, these two polarized directions will merge, and the final outcome will be the hybrid of both methods.
Workshop Leaders
Steven Ma [b.1981] is the founder and Chief Design Officer of Xuberance.Design Co.Ltd since 2008 in Vienna, Austria and moved to Shanghai in 2014, becoming China’s first professional 3D-Printing Design Company provides customized design service, digital fabrication, professional training and 3D-Printing experience shops operations. One of the leading experts in the field of addictive manufacturing industry who pushes the boundary of 3D-Printed consumer products and b2b design service in Asia. He is currently appointed as the Program Director for SCI-Arc Initiative China Program, as well as adjunct professor at Tongji University D&I Shanghai.
Hao Meng [b.1986] specializes in digital design and robotic application by crossing over the boundaries between computer science, artificial intelligence, architecture and art. After graduating from RMIT with high-distinction in Master of Architecture, he was responsible for the design and research of architectural robotics at Digital Design Research Center, Tongji University. He has made significant contribution to establish the cutting-edge digital design research platform named Fab-Union founded by Chinese architect, Professor Philip.F Yuan. Now Hao Meng is the director of Robotic Lab at SCI-Arc Shanghai Center.
Infrastructure Requirements & Budgets/ Funding:
TWO KUKA KR6 R900 Robot & Ceramic Kiln/Furnace
Material | Clay | 5000 RMB |
3D Printing Tool | Customized | Supplied by Xuberance |
Ceramic Kiln/ Furnace | 1 Set | 3000 Shipping Cost (Round Trip) |
Arduino Package | 3 sets | Supplied by Xuberance |
Teaching Fee | 2 Instructors 1 Assistant | 12000 RMB |
Train Tickets SH > BJ | 3 Person | 3000 RMB |
Accommodation | 3 Room | Supported by Organizer |
|
| Total: 23000 RMB (est.) |
Software Requirements:
Rhino 5.0 ; Grasshopper; Firefly; KukaPrc; Autodesk Maya; ZBrush (Requires temporary workshop license from RIA organization for KukaPrc)
Workshop Schedule:
Day 1 | Day 2 | Day 3 | Day 4 | Day 5 | Day 6 | Day 7 |
Introduction of KUKA & Kuka PRC | Design & Modeling with Maya & ZBrush | Introduction to material sensors using Adruino | Design Review | Group 1b Printing & exhibition preparation | Group 2b Printing & exhibition preparation | Exhibition Preparation |
Design & Modeling with Maya & ZBrush | Design & Modeling with Maya & ZBrush | Introduction to Robot & software | Group 1a Printing & exhibition preparation | Group 2a Printing & exhibition preparation | Exhibition Preparation | Final Review |
Previous Knowledge Required/Recommended:
Basic Maya, Rhino & Grasshopper Skill and KUKA robot programing experience
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