期刊
COMPOSITES SCIENCE AND TECHNOLOGY
卷 165, 期 -, 页码 115-123出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.compscitech.2018.06.009
关键词
Needling technology; Finite element method; Geometry modeling; Fiber damage
资金
- Tianjin Science and Technology Commission [15ZCZDGX00340]
- Tianjin city basic research funding projects for colleges and universities [TJPU2K20170101]
This paper investigates the deformation and damage of quartz preforms during the needling process. Effect of needling position and fabric thickness on the resistance force of the needle are experimentally researched. A numerical methodology based on the concept of virtual fibers is proposed to establish the geometry models of 2D broken twill and nonwoven fabrics. Then the needling process of the fabric plies is simulated by finite element method using an explicit dynamics algorithm. Deflection, stretch and breakage of the fibers are analyzed. The simulated fiber architectures of the needling positions are fairly close to the practical observations. Resistance force of the needling process can be predicted with satisfactory accuracy. The aim of the proposed approach is to generate the virtual fiber structure of needled preforms and obtain the effect of needling process on the fiber damage. This approach would be helpful for designing low-damage preforms and improve the mechanical properties of needled composites.
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