辅助
3d打印
3D打印
织物
材料科学
可穿戴计算机
数字光处理
工程制图
数字图像相关
复合材料
计算机科学
机械工程
计算机视觉
工程类
制造工程
投影机
嵌入式系统
作者
Shahbaj Kabir,Yu Li,Mir Salahuddin,Young‐A Lee
标识
DOI:10.1177/0887302x231202223
摘要
This study aimed to explore drapability of 3D-printed auxetic structure textiles with different geometries through the digital image processing technique in order to showcase their potential applications in 3D-printed wearable product development. A 13 (textile samples) × 3 (repetition) experimental research design consisting of 10 3D-printed auxetic structure textiles and three traditional lace fabrics were utilized in this study. The findings indicate that 3D-printed multi-angular auxetic structures exhibited the highest level of drapability followed by sinusoidal and triangular auxetic structures; these multi-angular structure textiles with draping coefficient ranging from 26.82% to 31.43% have a great potential to simulate traditional lace-like fabrics. A statistically significant correlation also was found between drapability and weight of 3D-printed auxetic structure textiles. This study demonstrates a true potential of 3D-printed auxetic structure textiles as alternatives of traditional lace textiles and their application in the wearable product development.
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