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Engineering snags for spatial curvature in weaves: Fabrication, mechanics, and inverse design

Engineering snags for spatial curvature in weaves: Fabrication, mechanics, and inverse design

来源:Arxiv_logoArxiv
英文摘要

Weaving as an old craft has extensive applications in modern science and technology such as smart textiles and intelligent soft robots. However, weaving irregular curved surfaces has been difficult, with prior alternatives requiring curved ribbons and triaxial weaving patterns. In this work, we present a simple strategy to achieve complex spatial curvature by purposely introducing 'snags', a traditionally unwanted textile defect, into dense plain weaves consisting of straight ribbons assembled in a straightforward biaxial network. We detail the fabrication methodology where we pull out ribbons of initially smooth two- (2D) and three-dimensional (3D) plain weaves to form local snags. We show that these local defects cause global curvatures through the propagation of geometric frustration. We then use a reduced-order bar & hinge model to simulate the mechanics-guided deformation of snagged plain weaves, and we investigate how the curvature scales with system parameters such as the thickness and Young's modulus of the ribbons. Finally, we introduce an inverse design platform where an evolutionary algorithm is used to inversely compute the optimal snag patterns of smooth plain weaves to approximate arbitrary target surfaces including 2D and 3D woven exoskeletons that fit human legs and elbows, respectively. Engineering snags in plain weaves as a general strategy can pave the way for future design of customizable wearable devices, adaptive soft robots, reconfigurable architecture, and more.

Guowei Wayne Tu、Evgueni T. Filipov

纺织工业、染整工业工程基础科学

Guowei Wayne Tu,Evgueni T. Filipov.Engineering snags for spatial curvature in weaves: Fabrication, mechanics, and inverse design[EB/OL].(2025-08-08)[2025-08-24].https://arxiv.org/abs/2508.06673.点此复制

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