Nonlinear Bifurcation and Post-buckling Analysis of Cylindrical Composite Stiffened Laminates Based on Weak Form Quadrature Element Method

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Xiang Ou, Xiaohu Yao, Run Zhang
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引用次数: 0

Abstract

This paper presents a weak form quadrature element formulation in the analysis of nonlinear bifurcation and post-buckling of cylindrical composite stiffened laminates subjected to transverse loads. A total Lagrangian updating scheme is used in combination with arc-length method, and the branch-switching method is adopted to identify the whole post-buckling procedure of the laminates. The formulation of the shell model and beam model are based on the basic concept of Ahmad. The coincidence of discrete nodes and integration points in quadrature element endows it with compactness and conciseness in the nonlinear buckling analysis of the cylindrical stiffened laminates. Several numerical examples are firstly presented to verify the effectiveness and accuracy of present formulation. Parametric studies on the effects of the height-to-breadth ratio, lamination schemes, positions, distribution, number of the stiffeners on the bifurcation and post-buckling behavior are performed.

Abstract Image

基于弱形式正交单元法的圆柱复合材料加筋层合板非线性分岔及后屈曲分析
本文提出了圆柱复合材料加筋层合板在横向荷载作用下的非线性分岔和后屈曲分析的弱形式正交单元公式。采用全拉格朗日更新方案与弧长法相结合,采用分支切换法对层合板的整个后屈曲过程进行识别。壳模型和梁模型的建立是基于Ahmad的基本概念。正交单元离散节点与积分点的重合使其在圆柱加筋层合板的非线性屈曲分析中具有紧凑、简洁的特点。通过数值算例验证了该公式的有效性和准确性。研究了加劲筋的高宽比、层压方案、位置、分布和数量对分叉和后屈曲行为的影响。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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