On the role of material architecture in the mechanical behavior of knitted textiles

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• 作者：Dani Liu^a ; ^d ; Daniel Christe^a ; ^d ; Bahareh Shakibajahromi^b ; ^d ; Chelsea Knittel^c ; ^d ; Nestor Castaneda^a ; ^d ; David Breen^b ; ^d ; Genevieve Dion^c ; ^d ; Antonios Kontsos^a ; ^d ; ^{akontsos@coe.drexel.edu}
• 关键词：Knitted textiles ; Finite element analysis ; Mechanical behavior ; Material architecture
• 刊名：International Journal of Solids and Structures
• 出版年：2017
• 出版时间：15 March 2017
• 年：2017
• 卷：109
• 期：Complete
• 页码：101-111
• 全文大小：4221 K
• 卷排序：109

文摘

Direct numerical simulations based on three dimensional finite element analysis were performed to investigate the mechanical behavior of knitted textiles at the scale where their manufactured material architecture can be simulated and assessed. A numerical investigation of the effects that the material architecture has on deformation localizations, as well as both in- and out-of-plane displacements is presented. To achieve this, a procedure to numerically synthesize and modify knitted textile geometries is investigated which takes into account yarn-to-yarn interactions, while it further allows meshing used in finite element analyses. Appropriate boundary conditions are applied to avoid unnecessary constraints, while a specific type of interaction definition between yarn surfaces is enforced to remove the effect of contact and friction. Furthermore nonlinear analysis is used to capture the geometrically significant yarn position changes resulting from the flexural motion of the looped knitted textiles. The observed anisotropic effects are explained by examining the load transfer as a function of local material architecture. In addition, both linear and nonlinear material laws are used to study the role of material nonlinearities in the mechanical behavior of this type of material at the length scale of their architecture.