All-3D apparel development: Establishing the rules to enable 3D weaving from 3D digital garments

Abstract

Three-dimensional (3D) digital models can enable designers to tailor garments to specific measurements and preferences, ensuring a perfect fit and personalized aesthetics. This precision would allow to achieve seamless integration between the digital representation, the customer’s body shape, and the physical woven garment outcome. If the weaving machine can be automated, fast, cost-effective, custom, exact fit garments could be produced in a matter of days due to the elimination of the 2D patternmaking steps in the garment process. Weaving a 3D shape, which was designed in a 3D software program, using a circular weaving machine requires certain grid rules applied to the 3D shape to optimize the weaving process, minimize material wastage, and ensure a successful outcome. In the present study, we proposed rules for weaving 3D surfaces from body scan files to enable future algorithm development. These rules aim to address factors such as weaving efficiency, structural integrity, and the limitations of circular weaving machines.