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复合材料厚梁精化锯齿理论及有限元分析

REFINED ZIG-ZAG THEORY FOR THICK COMPOSITE BEAMS AND FINITE ELEMENT ANALYSIS
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摘要 由于具有预先满足层间应力连续的优点,锯齿理论被广泛研究和应用.然而,至今锯齿理论仍然存在如下难题:基于锯齿理论构造单元时,需使用满足单元间C1连续的插值函数,难于构造多节点高阶单元,而且精度较低.如果这些问题不被重视和解决,应用此类理论分析复合材料力学问题可能得出不恰当的结论.通过发展高精度的考虑横法向应变的C0型锯齿理论,论文将克服已有锯齿理论遇到的上述难题.基于发展的锯齿理论,构造三节点梁单元验证发展理论模型的性能. Zig-zag theory has a merit of continuity conditions of transverse shear stresses being a priori satisfied,so it is widely studied and used. However, in the zig-zag theory, some problems have not yet solved. The C1 shape functions have to be required during its finite element implementation, so that it is dif- ficult to construct higher-order element based on the zig-zag theory. Moreover,previous zig-zag theories are less accurate in comparison with three-dimensional elasticity solutions. If these problems are neglected, some improper conclusions might be drawn when these zig-zag theories are used to analyze the mechanical problems of laminated composites. By proposing an accurate C^-type zig-zag theory considering transverse normal strain,difficulties encountered by previous zig-zag theories are overcome in this paper. Based on the proposed zig-zag theory, a three-node beam element is constructed to verify the performance of the pro- posed model.
作者 任晓辉 陈万吉 吴振
机构地区 沈阳航空航天大学
出处 《固体力学学报》 CAS CSCD 北大核心 2014年第4期384-390,共7页 Chinese Journal of Solid Mechanics
基金 国家自然科学基金(11272217) 辽宁高校优秀人才支持项目(LR201033)资助
关键词 C0型锯齿理论 三节点梁单元 横法向应变 层合梁 横向位移导数 C0-type zig-zag theory, three-node beam element transverse normal strain, laminatedbeam, derivatives of transverse displacement
分类号 O341 [理学—固体力学]
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参考文献14

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固体力学学报
2014年 第4期

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