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3Novices:Two robotic fabrication methods entwine to make Tongji University bridge

Two robotic fabrication methods entwine to make Tongji University bridge

Thin carbon fibres wind over a 3D-printed metal frame to form this hybrid bridge, made by university students in Shanghai using two emerging robotic fabrication techniques.

Students participating in the DigitalFUTURES International 2019 summer workshop at Tongji University worked with local research studio Fab-Union to design the bridge, which can hold more than 20 people.

The Robot Fabricated Hybrid Bridge is an exploration of two relatively recent construction methods – large-scale metal 3D printing, such as that used for MX3D's world-first bridge, and filament winding, as seen in the University of Stuttgart's beetle-wing-inspired Elytra pavilion.

Tongji University 3D printed bridge by students at digitalFutures International 2019

Both techniques save money, material and energy compared to traditional building methods such as subtractive manufacturing or cast pouring, and the students wanted to see how they could work in synergy.

Their hybrid method involves no formwork or moulds, and they believe it offers a great degree of design freedom.

Tongji University 3D printed bridge by students at digitalFutures International 2019

They used 3D-printing to construct the skeletal steel-base of the bridge, and winding of carbon and glass fibres to produce the web-like steps and handrails.

They used topology optimisation software to strip away all unnecessary material from the design, which ended up requiring 263 kilograms of steel for the 11.4-metre-long bridge. At its thinnest points, the steel frame is 20 centimetres thick.

Tongji University 3D printed bridge by students at digitalFutures International 2019

The construction phase took 20 days and a total of four robots – two per fabrication method.

The structure was preassembled off-site before being installed over a water feature at Tongji University's College of Architecture and Urban Planning, where it stayed from July to October 2019.

"Robotic fabrication is a high-precision manufacturing technology, combining with advanced structural analysis and optimisation method," said architect and Tongji University academic Philip F. Yuan, who led the team.

"This project proves intelligent construction has a great potential for material and energy saving in the architecture field," he added.

Tongji University 3D printed bridge by students at digitalFutures International 2019

The group deliberatively removed all decorative elements from the design to put the focus entirely on its materiality.

"This project presents a clean, accurate, strong structure," they said. "The light from the sunshine travels through the glass fibre, creates a soft soothing glow."

Their Multi-material Robotic Fabrication group was one of 12 groups in the DigitalFUTURES 2019 series. Others focused on topics including augmented timber assembly, decision-making in smart cities, AI in urban design, generative design and holotectonics, or holographically aided construction.

Photography is by Fangfang Tian unless stated otherwise.


Project credits:

Workshop instructor: Professor Philip F Yuan
Assistants: Wenhan Li (Fab-Union), Liming Zhang
Consultants: Qiang Zhou (XIE Technologies), Xiang Wang, Xiao Zhang
Students: Xiaofei Hong, Xing Hao, Xingtai Huang, Zhongsheng Yu

The post Two robotic fabrication methods entwine to make Tongji University bridge appeared first on Dezeen.


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