Influence of core yarn structure and yarn count on yarn elastic properties

This work aims to compare the effects of different yarn structures on the elastic properties. A new type of elastic core-spun yarn which is called tri-core (elastane/T400/elastane) yarn is introduced and tested for elastic properties after cyclic loading. The other yarn structures used are single-co...

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Bibliographic Details
Published in:Textile research journal 2022-10, Vol.92 (19-20), p.3534-3544
Main Authors: Elrys, Samah M M E, El- Habiby, Fawkia Faheem, Eldeeb, Ahmed S, El-Hossiny, Abdellatif M, Abd Elkhalek, Rehab
Format: Article
Language:English
Subjects:
Cyclic loads
Decay
Elastic deformation
Elastic properties
Elastic recovery
Scanning electron microscopy
Variance analysis
Yarns
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Summary:This work aims to compare the effects of different yarn structures on the elastic properties. A new type of elastic core-spun yarn which is called tri-core (elastane/T400/elastane) yarn is introduced and tested for elastic properties after cyclic loading. The other yarn structures used are single-core/T400, single-core/lycra, dual-core (elastane/T400) yarn, and yarn without a core component (conventional). The five types of yarn structure were produced at three levels of yarn counts (10, 14, and 18 Ne). Elastic properties after cyclic loading including stress decay, permanent deformation, elastic recovery, and relaxation rate were calculated and statistically analyzed using two-way analysis of variance. The scanning electron microscopy images of the five structures used were produced to illustrate the structure of these yarns. The results determined that elastane/T400/elastane core-spun and single-core/T400 yarns have higher values for most of the elastic properties. It was found that yarn count and yarn structure significantly affect stress decay, while the yarn structure significantly affects permanent deformation and elastic recovery. On the other hand, yarn count significantly affects the relaxation rate. Data showed that the number of cyclic tests significantly influences yarn elastic recovery.
ISSN:0040-5175
1746-7748
DOI:10.1177/00405175221084734