Influence of Weave Design and Yarn Types on Mechanical and Surface Properties of Woven Fabric | Zendy

Iwona Frydrych | Zendy; Zuhaib Ahmad | Zendy; Jakub Wiener | Zendy; Ahmad Fraz | Zendy; Hafiz Faisal Siddique | Zendy; Antonin Havalka | Zendy

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Influence of Weave Design and Yarn Types on Mechanical and Surface Properties of Woven Fabric

Author(s) -

Iwona Frydrych,

Zuhaib Ahmad,

Jakub Wiener,

Ahmad Fraz,

Hafiz Faisal Siddique,

Antonin Havalka

Publication year - 2018

Publication title -

fibres and textiles in eastern europe

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.304

H-Index - 39

eISSN - 2300-7354

pISSN - 1230-3666

DOI - 10.5604/01.3001.0010.7795

Subject(s) - crimp , yarn , plain weave , spinning , composite material , loom , materials science , ultimate tensile strength , polyester , weaving , woven fabric , structural engineering , engineering , mechanical engineering

The purpose of this study was to examine the effect of spinning technologies and weave design on fabric mechanical and surface properties. For this purpose, ring spun (combed, carded) and open-end (OE) techniques were used to manufacture yarns of polyester cotton (50:50) which were used in the weft, and 100% cotton yarn in the warp. Plain, twill, and satin weave designs were selected to construct woven samples on a projectile loom. The variation in fabric tensile strength is obvious with respect to weave designs. Higher interlacing of yarn produces more crimp in the load bearing, which may cause lower breaking strength and fewer broad floats. The mechanical and surface properties of these fabric samples were investigated and statistical analysis was performed, which showed a significant effect of the spinning technique and weave design on these properties.

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