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Fibers and Polymers

, Volume 19, Issue 12, pp 2631–2641 | Cite as

A New Theoretical Equation to Estimate Poisson’s Ratio for Coated Bi-axial Warp Knitted Fabrics under Bias Tensile Loading

  • Jianwen ChenEmail author
  • Han Zhou
  • Bing Zhao
  • Wujun Chen
  • Mingyang WangEmail author
  • Zhihong Xu
Article
  • 8 Downloads

Abstract

Tensile tests of seven bias angles with a 15° increment with respect to the warp direction are conducted on a typical coated bi-axial warp knitted fabric (BWKF). By utilizing the Digital Image Correlation technique, the experimental results are processed, and detailed responses of strain contours and Poisson’s ratios are determined for some specific strain levels, and an extraordinary M-shaped relationship between Poisson’s ratio and bias angle is revealed. Then, the tested Poisson’s ratios are compared with corresponding theoretical predictions from the original theory for ordinary anisotropic materials, discrepancies and their possible causes are analyzed. Finally, the original theory used for Poisson’s ratio predication of ordinary anisotropic materials is modified for application to the BWKFs by considering the unique local valley at 45° caused by structural differences and possible yarn movements. The modified theoretical equation could exhibit the M-shaped relationship between Poisson’s ratio and bias angle, and is validated due to the high similarity between the predictions and experimental results. This investigation could provide some new insights into the orientation-dependence, Poisson’s effect and complex deformation mechanism of BWKFs.

Keywords

Bi-axial warp knitted fabrics (BWKFs) Orientation-dependence Digital Image Correlation (DIC) Poisson’s ratio M-shaped relationship 

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Copyright information

© The Korean Fiber Society, The Korea Science and Technology Center 2018

Authors and Affiliations

  1. 1.School of ScienceNanjing University of Science and TechnologyNanjingChina
  2. 2.School of Mechanical EngineeringNanjing University of Science and TechnologyNanjingChina
  3. 3.Space Structures Research CenterShanghai Jiao Tong UniversityShanghaiChina
  4. 4.State Key Laboratory of Disaster Prevention and Mitigation of Explosion and ImpactPLA University of Science and TechnologyNanjingChina

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