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Ying Ma,Yueyan Liu,Congying Deng,Xiang Chen,Yang Zhao,Sheng Lu,Youqi Wang 한국섬유공학회 2020 Fibers and polymers Vol.21 No.10
3-D woven textile is generated through the weaving process. Yarn is a non-continuum material domain, thestructure of which is determined by inter fiber movement. In this study, the micro-geometry of 3-D orthogonal weave isgenerated at filament level predicting through the weaving process implementing the digital element approach (DEA). First,the basic concepts and explicit algorithm of DEA is introduced. The method of calculating adjusted digital fiber materialproperty in terms of discretization resolution is proposed. Second, the unit-cell topology of 3-D orthogonal weave is definedby a position matrix. The calculation of potential energy of the cell is derived. At last, a dynamic weaving process is designedto investigate the effect of yarn tension on fabric micro-geometry and cell energy. 4 unit-cells are generated under 4 sets oftension combination. Results show that as the fabric thickness decrease, the filaments of the weft yarns move towards thecenter. The weft yarns at the top and bottom deform into their final shape first. The applied tension on weaver plays adominant role in determining fabric thickness and convergence speed. By comparing the numerical results with themicroscope pictures taken from the actual specimen, it is concluded that the fabric micro-geometry produced by tensioncombination 4 closely matches the experimental results.