编织
材料科学
复合材料
材料性能
有限元法
周期边界条件
边值问题
钻石
结构工程
数学
数学分析
工程类
作者
Lei Xu,Seong Jong Kim,Cheng-Huat Ong,Sung Kyu Ha
标识
DOI:10.1177/0021998311431353
摘要
Biaxial and triaxial braided composites are modeled using finite element methods to predict effective material properties: for biaxial braids, diamond pattern (1/1), regular pattern (2/2), and Hercules pattern (3/3) are modeled, while for triaxial braids, a regular pattern (2/2) is modeled. A micromechanical approach is adopted to calculate material properties of the tows, which are critical compositions of braided composites. By applying periodical boundary conditions (PBC), four representative unit cells (RUC) in correspondence to the four types of braids are analyzed and compared. Subsequently, effective material properties are obtained with the braiding angle varying from 15° to 75° with an increment of 5°, from which the variation of the engineering constants with the braiding angle is studied. The prediction results are compared with the experimental values for two material systems, and good agreement is achieved.
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