4.7 Article

Modelling energy dissipation and hysteresis of woven fabrics with large deformation under single loading-unloading cycle

期刊

COMPOSITE STRUCTURES
卷 279, 期 -, 页码 -

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.compstruct.2021.114781

关键词

Woven fabrics; Constitutive modelling; Energy dissipation; Hysteresis; Finite strain

资金

  1. National Natural Science Foundation, China [U20A20288, 11972225]

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A piecewise total-strain model is proposed for characterizing the dissipation and hysteresis of woven fabrics under single loading-unloading cycle, based on energy decomposition according to main mesoscopic deformation mechanisms. The model shows excellent consistency between simulation results and experimental data, validated through three different experiments.
Based on energy decomposition according to main mesoscopic deformation mechanisms of woven fabrics, a piecewise total-strain model for characterizing their dissipation and hysteresis with finite strain under single loading-unloading cycle is presented. In the piecewise model for single deformation mode, a loading-unloading hysteresis cycle is decomposed into four deformation states to characterize according to main mesoscopic mechanisms. Strongly non-linear unloading curve is characterized by constructing energetic relation with loading curve. Dissipation is characterized in a total-strain form and history-dependence is characterized by internal variables, namely dissipation ratio factors. The model is implemented with UMAT in ABAQUS. Three experiments namely trellising, bias extension and uniaxial tension in the literature are simulated for model validation. Excellent consistency between simulation results and experimental data is obtained for each test.

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