Digital design of automatically wound shear reinforcement for non-prismatic concrete beams

Perepechay, Anna; Spadea, Saverio; Costa, Eduardo; Shepherd, Paul

Digital design of automatically wound shear reinforcement for non-prismatic concrete beams

Perepechay, Anna; Spadea, Saverio; Costa, Eduardo; Shepherd, Paul

Authors

Anna Perepechay

Saverio Spadea

Eduardo Costa Eduardo.Costa@uwe.ac.uk
Senior Lecturer in Computational Architecture

Paul Shepherd

Contributors

Marco di Prisco
Editor

Alberto Meda
Editor

Gyorgy L. Balazs
Editor

Abstract

Concrete is the world’s most widely used man-made material, accounting for around 7% of global CO2 emissions. Currently, up to half of the concrete used in buildings is unnecessary, as it is there because it is shaped using prismatic formworks, which are structurally inefficient. Recent research has demonstrated that flexible formwork can be used to form concrete members of any shape and that reinforcement can be woven into geometrically appropriate cages. This process is well suited for robotic automation, enabling off-site casting of non-prismatic beams with minimal human involvement. In a previous contribution, an iterative optimisation process was implemented in a parametric modelling framework to generate and analyse non-prismatic beams in bending, considering the constraints imposed by the use of fabric formwork. The current effort focuses on the winding process, which triggers further design constraints while considerably contributing, together with the concrete shape sections, to the shear strength of the beams. The analytical tool is linked to the generative geometry process and an optimisation tool, which can inform the parametric design of flexible beams with minimal embodied carbon.

Presentation Conference Type	Conference Paper (published)
Conference Name	fib International Congress
Start Date	Sep 5, 2022
End Date	Sep 7, 2022
Publication Date	2022
Deposit Date	Jan 14, 2025
Peer Reviewed	Peer Reviewed
Pages	201-208
Book Title	Proceedings of the 14th fib International PhD Symposium in Civil Engineering
ISBN	9782940643172
Public URL	https://uwe-repository.worktribe.com/output/13612031
Publisher URL	https://www.fib-international.org/publications/fib-proceedings/14th-phd-symposium-in-rome-italy-2022-proceedings-em-pdf-em-detail.html
Additional Information	Not permitted to make full text publicly visible

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Digital design of automatically wound shear reinforcement for non-prismatic concrete beams

Perepechay, Anna; Spadea, Saverio; Costa, Eduardo; Shepherd, Paul

Authors

Contributors

Abstract

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