Indian Journal of Fibre & Textile Research

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Computer Geometric Modeling Approach with Filament Assembly Model for 2x2 Twill Woven Fabrics Structures


Affiliations
1 department of Industrial piping technology, Faculty of Technical Education, Rajamangala University of Technology, IsanKhonkaen Campus, Khonkaen 40000, Thailand
2 Manufacturing and materials Research Unit, Department of Manufacturing Engineering, Faculty of Engineering, Mahasarakham University, Mahasarakham 44150, Thailand
 

A new computer geometric modeling approach for 2x2 twill woven fabrics structures has been presented. A 3D model considering their inherent skewness is proposed and can be used in precise geometrical description. Balanced fabric geometry occurs in 2x2 twill weaves where the fabrics are defined by floating and intersecting segments in weaves, which create symmentric floatings on the front and back surfaces of the fabrics. The yarns cross-section of twill woven fabrics uses the concept of virtual locations and each cross-section is rotated along a single yarn path. The curve of each filament in each of two successive cross-sections is approximated by NURBS. The approach described is demonstrated in 3D CAD for twill woven fabrics structures by using the geometric parameters considering their inherent skewness. The simulated twill woven fabrics structures must be improved so that they are a true visual simulation of real twill woven fabrics and can demonstrate wide varities of form.

Keywords

2x2 Twill Weave, Computer-Aided Design, Filament Assembly Model, Skewness.
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  • Iyer KB, Hepworth K & Snowden DC, J Text Inst, 55(1) (1964) 99.

  • Turan RB & Başer G, J Text Inst, 101 (10) (2010) 870.

  • Turan RB & Okur A, Indian J Fibre Text Res, 38 (3) (2013) 251.

  • Avanaki MJ & Jeddi AAA, Fibers Polym, 15 (9) (2014) 1956.

  • Avanaki MJ, Jeddi AAA & Rastgoo A, Fibers Polym, 15 (9) (2014) 1992.

  • Keefe M, Edwards D & Yang J, J Text Inst, 83 (2) (1992) 185.

  • Harwood RJ, Liu Z, Grishanov SA, Lomov SV & Cassidy T, J Text Inst, 88 (4) (1997) 385.

  • Adanur S & Liao T, Composites Part B, 29 (6) (1998) 787.

  • Goktepe O & Harlock SC, Text Res J, 72 (3) (2002) 266.

  • Jiang Y & Chen X, J Text Inst, 96 (4) (2005) 237.

  • Sriprateep K & Bohez ELJ, Comp-Aided Des Appl, 3 (1-4) (2006) 367.

  • Sriprateep K & Bohez ELJ, J Text Inst,100 (3) (2009) 223.

  • Patumchat P & Sriprateep K, J Text Inst, 110 (1) (2019) 50.

  • Sriprateep K & Singto S, J Text Inst, 110 (9) (2019) 1307.

  • Sriprateep K & Bohez ELJ, Text Res J, 87 (6) (2017) 657.

  • Sriprateep K, Text Res J, 89 (2) (2019) 204.

  • Piegl L & Tiller W, The NURBS Book (Springer-Verlag, Berlin/Heidelberg), 1997.

  • Soydan AS & Baser GA, A Computer Aided Education Program to Instruct Students on Weaving Double Fabric Structures, paper presented at the 5th International Textile Conference, Istanbul, Turkey, May 2005.


Abstract Views: 74

PDF Views: 66




  • Computer Geometric Modeling Approach with Filament Assembly Model for 2x2 Twill Woven Fabrics Structures

Abstract Views: 74  |  PDF Views: 66

Authors

Puttipong Patumchat
department of Industrial piping technology, Faculty of Technical Education, Rajamangala University of Technology, IsanKhonkaen Campus, Khonkaen 40000, Thailand
Keartisak Sriprateep
Manufacturing and materials Research Unit, Department of Manufacturing Engineering, Faculty of Engineering, Mahasarakham University, Mahasarakham 44150, Thailand

Abstract


A new computer geometric modeling approach for 2x2 twill woven fabrics structures has been presented. A 3D model considering their inherent skewness is proposed and can be used in precise geometrical description. Balanced fabric geometry occurs in 2x2 twill weaves where the fabrics are defined by floating and intersecting segments in weaves, which create symmentric floatings on the front and back surfaces of the fabrics. The yarns cross-section of twill woven fabrics uses the concept of virtual locations and each cross-section is rotated along a single yarn path. The curve of each filament in each of two successive cross-sections is approximated by NURBS. The approach described is demonstrated in 3D CAD for twill woven fabrics structures by using the geometric parameters considering their inherent skewness. The simulated twill woven fabrics structures must be improved so that they are a true visual simulation of real twill woven fabrics and can demonstrate wide varities of form.

Keywords


2x2 Twill Weave, Computer-Aided Design, Filament Assembly Model, Skewness.

References