Evaluation of Poisson’s ratio of textiles from mesoscopic models

Abstract: The magnitudes of Poisson's ratios can attain some peculiar values for woven fabrics, in contrast to conventional engineering materials, leading to unusual stress-strain relationships. A mesoscopic discrete model of dry fabric has been presently developed at the scale of the armor, accounting for the yarn-yarn interactions at the yarns crossing points. From a mechanical viewpoint, yarns are modeled as elastic straight bar elements representing stretching springs connected at frictionless hinges by rotational s… Show more

“…Poisson's ratio ( ) is another physical factor relating to the stress-strain non-linearity in the fabric deformation. The first increases towards a maximum value due to the rapid shrinkage of the sample in the transverse direction, and then decreases when the yarn crimps are exhausted [9]. Lu [10] developed a method to determine the value of woven fabric based on a biaxial extension and suggested the value in the range of 0 to 0.5.…”

Large Deformation Modelling of Tight Woven Fabric under High Air Pressure

“…Poisson's ratio ( ) is another physical factor relating to the stress-strain non-linearity in the fabric deformation. The first increases towards a maximum value due to the rapid shrinkage of the sample in the transverse direction, and then decreases when the yarn crimps are exhausted [9]. Lu [10] developed a method to determine the value of woven fabric based on a biaxial extension and suggested the value in the range of 0 to 0.5.…”

Large Deformation Modelling of Tight Woven Fabric under High Air Pressure

Characterization of the Orthotropic Elastic Constants of a Micronic Woven Wire Mesh via Digital Image Correlation

CAD/CAM in the woven textiles industry