Simulation and analysis of the twist propagation process of polyester staple yarn on the fiber scale

Abstract: The twisting process of the sliver is an important part of the yarn spinning process, but this process has not been fully characterized on the fiber scale. Herein, based on the assumption that fibers are randomly distributed in the sliver, we analyzed the simulation twisting process of the sliver model on the fiber scale. The mathematical model of the twisting process of the sliver is set up and the non-free-end twisting process is simulated using the finite element software ABAQUS®. The simulation process cle… Show more

“…Ilhan et al 11 proposed a theoretical model for estimating the linear density of slub yarn, which can be utilized to predict the average linear density of slub yarn and facilitate production scheduling in enterprises. Wang 12 established a fitting relationship between the linear density of polyester yarn and the fiber number in its crosssection along the yarn axis through experimental investigation.…”

The model of ring-spun slub yarn based on random fiber arrangement and its application: Part 2 Prediction of morphology parameters for slub yarn and simulation of slub fabric

“…Ilhan et al 11 proposed a theoretical model for estimating the linear density of slub yarn, which can be utilized to predict the average linear density of slub yarn and facilitate production scheduling in enterprises. Wang 12 established a fitting relationship between the linear density of polyester yarn and the fiber number in its crosssection along the yarn axis through experimental investigation.…”

The model of ring-spun slub yarn based on random fiber arrangement and its application: Part 2 Prediction of morphology parameters for slub yarn and simulation of slub fabric

“…ABAQUS is a powerful finite element software for engineering simulation, which can solve problems ranging from relatively simple linear analysis to many complex nonlinear problems. Wang 11,12 proposed a three-dimensional (3D) staple yarn forming model based on ideal assumptions of the fiber structure and yarn sliver cross-section, and then carried out finite element twisting simulation of a yarn sliver held by two clamps in ABAQUS. However, there is also no relevant research on the twisting theory of unregular ring-spun yarn.…”

Simulation of fiber arrangement in slub strands and twisting on the slub yarn with the finite element method

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