Determination of optimal system parameters to measure bending property of fabric based on the CHES-FY system

Abstract

The main content of the paper is to determine the optimal system parameters to measure bending property of fabric based on the Comprehensive Handle Evaluation System for Fabric and Yarn (CHES-FY). Four system parameters of the CHES-FY system were selected, including space distance between a pair of jaws, space distance between Bi-U-shaped pins, vertical distance between a pair of jaws and Bi-U-shaped pins, and diameter of Bi-U-shaped pins. In order to both determine the sequence of significant influences of the four system parameters on bending property, and to determine the optimal values of the four parameters to measure bending property of fabric, the Orthogonal design method was adopted to set the four system parameters as four factors and to assign four levels to each factor. Correlations were conducted between bending property and the featured indices (slope and peak value) from the pulling-out force and displacement curves recorded by the CHES-FY system. Comparing results show that the featured indices have good relations with both bending rigidity and bending length measured by FAST-2 meter as well as drape coefficient. Range values and average values are used to assess the significant relation of both factors and factor’s levels with bending property of fabric. The sequence of significant influences of the four system parameters on bending property are diameter of Bi-U-shaped pins, space distance between Bi-U-shaped pins, vertical distance between a pair of jaws and Bi-U-shaped pins, and space distance between a pair of jaws. Moreover, the optimal parameters’ levels are also obtained to better measure bending property of fabric. It indicates that the optimal system parameters of the CHES-FY system are a highly effective combination in evaluating bending property of fabric.