杨斌， 章继峰^*

（  哈尔滨工程大学 智能结构与先进复合材料实验室；  ）

摘要： 本文制备了热塑性玻璃纤维增强pCBT树脂基复合材料，通过力学实验测试得出冲击仿真过程中所需要的力学参数。在此基础上，建立了分析纤维增强树脂基复合材料层合板在低速冲击作用下损伤和变形行为的有限元模型。分别采用基于最大应力，最大应变以及三维Hashin准则编写了用于冲击计算的VUMAT子程序。同时，针对铺层板的层间脱层损伤，使用内聚力单元模拟层间粘接区域。计算模型通过有限元软件ABAQUS/ Explicit 的材料模型用户子程序实现，通过仿真得出了该复合材料在冲击载荷下的力-时间和速度-时间曲线。
关键词： 固体力学；pCBT/玻璃纤维复合材料；冲击载荷；失效准则；VUMAT子程序

YANG Bin^1,， ZHANG Jifeng^2,*

（  1、College of Aerospace and Civil Engineering, Harbin Engineering University, Harbin, China；       2、College of Aerospace and Civil Engineering, Harbin Engineering University；  ）

Abstract： In the present paper, pCBT/GF composites were prepared and the mechanical parameters used in the simulation were obtained through experimental tests. Afterwards, the simulation modle for the composites under low velocity impact was built. Maximum stress, strain and 3D Hashin failure criterion were compiled in the VUMAT subroutine for the impact test. Moreover, in order to got the delamination of the composites under impact, cohesive element was adopted into each layers. The modle was calculated in ABAQUS/ Explicit and the load-time, velocity-time curves were achieved.

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