New concrete mold system uses the right amount of concrete and no more

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A modular “pin-bed” solution that uses an array of computer-controlled pistons (actuators) that move vertically to support and deform a flexible formwork of composite strips and a fabric membrane. Credit: University of Cambridge

Concrete is the world’s most widely consumed material after water, and its production contributes to more than 7% of global CO2 emissions. Achieving global ambitions to limit warming to 1.5ºC will require significant change across the construction sector—not least in how we use concrete.

An easy win is simply to use less concrete, by eliminating waste and overdesign. This is the focus of the UKRI-funded research project “Automating Concrete Construction (ACORN).”

ACORN is researching how and automated production methods can be used to create concrete floor systems with drastically reduced CO2 emissions. This is achieved using a segmented thin-shell floor solution that can be produced off-site using robotics, and is designed to be transportable, demountable, and reusable at the end of its first life, enabling circularity in construction.

This interdisciplinary project includes researchers from the Universities of Bath, Cambridge, and Dundee. The research team in Cambridge, led by Dr. John Orr, is working towards the realization of a real-scale demonstrator of a 4.5 m x 4.5 m shell floor system. Their research is making use of new construction robotic facilities held within the National Research Facility for Infrastructure Sensing (NRFIS).

The fabrication of a segmented concrete shell required the team to and fabricate an entirely new reusable and reconfigurable concrete mold (see video) that is compatible with our robotic spraying system. The realization of this new mold demonstrates collaboration between the research team, and the Department of Engineering workshops.






Credit: University of Cambridge

The Department of Engineering’s in-house design team worked with ACORN researchers to develop a modular “pin-bed” solution that uses an array of computer-controlled pistons (actuators) that move vertically to support and deform a flexible formwork of composite strips and a fabric membrane to create a mold for concrete.

Thanks to this mold, the team can cast concrete shell segments, whether identical or different, with a single mold. This system allows mass-customisation and significantly reduces the waste and carbon content due to the necessary formwork of these efficient but more complex to build curved structures.

When challenged to realize the ACORN vision, the workshop team took inspiration from a project developed for the Whittle Laboratory, adapting this tried and tested solution to meet our specifications.

Senior Design Engineer Neil Houghton said “Using a proven design, adopted from an entirely unrelated research project, effectively de-risked this significant mechanical development and demonstrates the value of sharing technical know-how between entirely different research applications. This collaboration benefited the ACORN vision in terms of cost, timescales, effort, and technical risk.”

Cambridge lead investigator, Dr. John Orr, said “The collaboration between our research team, the professional services team in the workshop, and our fabrication group, allowed us to realize a new concrete mold that will demonstrate the industrial feasibility of using a segmented thin shell concrete floor system. This has the potential to drastically reduce the amount of concrete used in our buildings and enables a circular economy as we have built in the potential for future reuse. The project has benefited enormously from the expertise within the Department, and from the input of our industrial steering group, who include 12 of the UK’s largest civil and structural design and construction companies.”

With this demonstrator and the release in 2022 of an open source version of the end-to-end design and fabrication tool, ACORN fuses the digital and physical realms, and hopes to drive the acceptance of a new culture in the industry: to use enough material—and no more.


Recycled concrete and CO₂ from the air made into a new building material


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New concrete mold system uses the right amount of concrete and no more (2021, November 22)
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