Application of Air-Jet Nozzle in Short Staple Siro-Spinning System
Abstract
With the objective of reducing the hairiness of Siro spun yarns, two types of air‐jet nozzle differing in the angle of sub‐holes and suitable for an air vortex ri
With the objective of reducing the hairiness of Siro spun yarns, two types of air‐jet nozzle differing in the angle of sub‐holes and suitable for an air vortex ri
The present paper is an attempt to optimize the condition of Siro spinning system for producing the elastic core-spun yarns by neural networks.
The influence of different processing stages on the low stress mechanical and surface properties of cotton knitted fabrics has been studied. The KES-FB system has been used for the measuring of low stress tensile, shear, bending, compression and surface properties.
In this paper, the effects of different parameters on the hairiness of siro-jet spun yarns, such as the nozzle pressure, the distance between the front roller nip and inlet of the nozzle, and jet structure were investigated.
In this paper, the ability of the pulling-through method with a distance plate for measuring the shearing properties of knitted fabrics was studied. The conventional extraction method does not have a good correlation with the shearing properties of woven fabrics due to the complex deformation of the fabrics during testing.
In this paper, various variables of the rotor spinning system were optimized to produce cotton yarn from ginning waste with the lowest hairiness level.
The paper addresses the optimization of various machine parameters in rotor spinning system to obtain the highest quality index of cotton yarn produced from the ginning process waste.
Fiber-blending irregularities and fiber distribution in blended-
This paper focuses on measuring the roughness of knitted fabrics using a non-contact method. Research on objectifying the handle of textile fabrics is a very important factor in textile and garment manufacturing and retailing industries. Fabric handle is influenced by mechanical and surface properties.