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http://dx.doi.org/10.12940/jfb.2020.24.3.85

Textile Structural Design with Fabric Flexibility using SLS 3D Printing Technology  

Song, HaYoung (Dept. of Textile Design, Sangmyung University)
Publication Information
Journal of Fashion Business / v.24, no.3, 2020 , pp. 85-100 More about this Journal
Abstract
Recently, 3D printing technology, which is suitable for small-volume production of many varieties, has become considered a key manufacturing technology in the 4th industrial revolution. However, the nature of 3D printing technology means it is not yet able to be applied to traditional textiles due to Fabric Flexibility. The aim of this study is to investigate Textile Structural Design by finding the optimal yarn thickness for Selective Laser Sintering (SLS) 3D printed structures on geogrid dobby woven fabric that gives the optimal flexibility and tensile strength in the final product. The test results for tensile load strength of the 3D printed test samples, using 1.0mm, 0.8mm, 0.6mm and 0.4mm yarn thicknesses, showed that all were found to be above 250N, this higher than the tensile strength of 180N that is recommended for textile products. Based on these results, the four dobby structural patterns with 3D printing produced had four yarn thicknesses: 1.0mm, 0.8mm, 0.6mm, and 0.4mm. The thinner the yarn, the more flexible the fabric; as such the optimal conditions to produce SLS-based 3D printed textiles with suitable strength and flexibility used a thickness of yarn in the range of 0.4mm to 0.6mm.
Keywords
3D printing; textile structural design; fabric flexibility; selective laser sintering;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
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