Simulation of the spherical deformation of biaxial weft-knitted fabrics using meso and macro models
详细信息 查看全文
- 作者:Mohammad Javad Abghary ; Reza Jafari Nedoushan ; Hossein Hasani
- 关键词:Biaxial weft ; knitted fabrics ; Numerical simulation ; Meso and Macro scale modeling ; Spherical deformation
- 刊名:Fibers and Polymers
- 出版年:2016
- 出版时间:October 2016
- 年:2016
- 卷:17
- 期:10
- 页码:1702-1708
- 全文大小:1,939 KB
- 刊物类别:Chemistry and Materials Science
- 刊物主题:Chemistry
Polymer Sciences - 出版者:The Korean Fiber Society
- ISSN:1875-0052
- 卷排序:17
文摘
The main objective of this research is the numerical simulation of the spherical deformation of biaxial weft-knitted fabrics produced based on 1×1 rib structure. Biaxial knitted samples were produced on a modern flat knitting machine using the polyester yarn as the fabrics stitch background and the nylon yarn as the reinforcing inlays. Bagging test was applied to the samples for investigating their behaviors during the spherical deformation. Considering two different approaches in analytical studies, the test procedure and its results were simulated through the Abaqus software environment based on the finite element method. In the first approach, by the help of Python scripting, the real structure of the fabric was simulated based on a unit-cell of the three-dimensional loop model for 1×1 rib structure comprised of warp and weft reinforcing yarns. In the second approach a constitutive equation was used for macro modeling of biaxial knitted fabrics. The stiffness matrices of these fabrics were assumed to be a combination of stiffness matrices for both 1×1 rib based-structure and reinforcement yarns. To implement the constitutive behavior in Abaqus software, a VUMAT subroutine was provided. To evaluate the accuracy of the two suggested models, fabric spherical deformation was simulated and results were compared with experimental measurements. The findings showed that the both models can successfully predict the spherical deformation of the biaxial weft knitted fabric.