A team of students and researchers from the University of Michigan have created a robotically-fabricated structure made entirely from timber.
They aimed to promote low-carbon construction, creating a complex architectural structure from local materials.
The designers hope it can serve as an example of how robotic construction can enable more sustainable forms of construction and minimize waste.

A team of students and researchers has shown how, with the help of robots, it’s possible to build an intricate pavilion using only small pieces of timber.

The Robotically Fabricated Structure is the result of a project by the Adel Design Research (ADR) Laboratory at the University of Michigan’s Taubman College of Architecture and Urban Planning.

The ambition was to promote low-carbon construction, by showing it’s possible to create complex architectural structures using wood that is sourced from the local region rather than imported.

Custom algorithms were used to calculate the optimal arrangement for the timber 2x4s, removing the need for any larger beams within the structure.

Robots assembled the components into a series of prefabricated frames, which were then delivered to site and slotted together by hand.

“The coupling of custom algorithms and robotic fabrication enables the feasible realisation of bespoke building components that are otherwise difficult or costly to achieve through conventional means and methods, with minimal construction waste,” explained ADR, which is led by professor Arash Adel.

“Short elements enable the use of indigenous trees that cannot easily produce full-length building elements, construction and manufacturing off-cuts, and lumber elements reclaimed from the deconstruction of buildings, ultimately contributing to a more sustainable practice,” said the team.

Robotically Fabricated Structure has been installed in the Matthaei Botanical Gardens in Ann Arbor, where it can be used as a place of rest and shelter, or host exhibitions and performances.

Raised on an oval-shaped timber platform, it takes the form of a curved tunnel with an integrated bench seat wrapping on of its edges.

The tunnel is made up of 20 robotically fabricated frames, which themselves are made up of various components. Each one is slightly different, which gives the structure its undulating shape.

As each piece of wood has the same thickness, it was possible to design these frames so that they slot together. This helped to reduce the need for screw fixings.

The design is longlisted for Dezeen Awards 2022 in the small building category.

The designers hope it can serve as an example of how robotic construction can enable more sustainable forms of construction and minimise waste.

Source World Economic Forum

Related news

Want to be a greener food shopper? We ask experts for their advice

Leading experts advise on the impact of deliveries, buying organic, packaging and food waste.

The circular economy: What B2B companies need to know

The trend toward greater sustainability, for example through reuse and repair, has been on the rise in the consumer sector for years. B2B companies are now increasingly joining in and taking an important step toward the circular economy. Georg Sobczak, RVP, DACH bei Mirakl, explains.

Boris Johnson confirms mandatory EV charging points for new buildings in England

All new homes and workplaces built in England from 2022 will need to have electric vehicle (EV) charging points as standard, Prime Minister Boris Johnson has confirmed.

Singapore startup claims breakthrough in Lithium-ion battery recycling

Singapore-based Green Li-ion says its tech can ease the looming e-waste crisis by dramatically increasing the efficiency and profitability of rechargeable battery recycling.