MODELING THE CRUSHING RESPONSE OF PMC TUBES UNDER QUASI-STATIC AND DYNAMIC LOADING CONDITIONS

机译：在准静态和动态载荷条件下对PMC管的挤压响应进行建模

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Non-linear finite element technique was used to predict the crushing response and energy absorption of fiberglass/polyester tubes under quasi-static and dynamic conditions. The major failure modes including axial splitting of the tube wall and delamination were modeled using the available features in LS-DYNA and ABAQUS codes for dynamic and quasi-static analysis, respectively. The results show that the finite element models were able to predict the average and peak load levels for the tubes with and without using an external constraint. Finally, it was concluded that modeling the major failure modes in the crushing process in addition to using an appropriate material failure model is essential to capture the load levels and specific energy absorption of the crushed tubes.

机译：非线性有限元技术被用来预测玻璃纤维/聚酯管在准静态和动态条件下的破碎响应和能量吸收。分别使用LS-DYNA和ABAQUS规范中的可用功能对主要失效模式进行建模，包括管壁的轴向裂开和分层，以进行动态和准静态分析。结果表明，有限元模型能够在不使用外部约束的情况下预测管道的平均和峰值载荷水平。最后，得出的结论是，除了使用适当的材料破坏模型之外，对破碎过程中的主要破坏模式进行建模对于捕获破碎管的载荷水平和比能量吸收也至关重要。

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《2002 ASME International Mechanical Engineering Congress and Exposition , Nov 17-22, 2002, New Orleans, Louisiana》|2002年|p.91-98|共8页
会议地点 New Orleans LA(US);New Orleans LA(US)
作者
M.Abdel-Haq; G. Newaz;
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Visteon Corporation, Wayne State University, Detroit, Ml 48202;

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正文语种 eng
中图分类铁路运输;
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入库时间 2022-08-26 14:22:14

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MODELING THE CRUSHING RESPONSE OF PMC TUBES UNDER QUASI-STATIC AND DYNAMIC LOADING CONDITIONS

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