Effect of diagonal path on the physical properties of compact and conventional ring yarn

Effect of diagonal path on the physical properties of compact and conventional ring yarns has been investigated. The compact and conventional ring yarns have been spun using three completely different paths in the ring frame, like normal path, right diagonal path and left diagonal path. The yarn spun by the left diagonal path has an additional advantage over the other two paths for both conventional ring yarn and compact yarn in terms of yarn hairiness, yarn evenness, tenacity, elongation and breaking force

Effect of Weave Parameters on the Tear Strength of Woven Fabrics

The fabric tear strength is an important parameter in textile material, ever since it is close to relate to the service of the fabric. Tear strength of the fabrics depends on the flexibility of the yarn in fabric structure. In this research, the tear strength of 11 cotton woven fabrics is analyzed based on the weave parameters such as crossing over firmness factor (CFF), Floating Yarn Factor (FYF), Fabric Firmness Factor (FFF) and weave factor (P1)

Effect of diagonal path on the physical properties of compact and conventional ring yarn

495-498Effect of diagonal path on the physical properties of compact and conventional ring yarns has been investigated. The compact and conventional ring yarns have been spun using three completely different paths in the ring frame, like normal path, right diagonal path and left diagonal path. The yarn spun by the left diagonal path has an additional advantage over the other two paths for both conventional ring yarn and compact yarn in terms of yarn hairiness, yarn evenness, tenacity, elongation and breaking force

Effect of Weave Parameters on Thermal Properties of Woven Fabrics

After reviewing the past work into the characterization of weave structures and their relationships with various properties of fabrics, an account is given of the present knowledge of them on comfort properties which represents one of the major areas that have been neglected in garments. The shortcomings of this knowledge are shown to be that, although many studies have been conducted on comfort, there have been no systematic studies of weave structures and their impact on comfort. Thermal comfort properties of fabrics are affected by a gamut of fiber, yarn, and fabric properties. In this study, the characterization in the comfort properties, namely thermal resistance and thermal conductivity, has been studied as a function of weave structures and other geometrical properties