Influence of Defect Distribution on Dynamic Elastic Buckling of Rings Under Internal Uniformly-Distributed Pressure Pulse

Volume 5: High-Pressure Technology; ASME Nondestructive Evaluation, Diagnosis and Prognosis Division (NDPD); Rudy Scavuzzo Student Paper Symposium and 26th Annual Student Paper Competition Pub Date : 2018-07-15 DOI:10.1115/pvp2017-65231

Q. Dong, Shan Yang, Liucheng Zhang

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Abstract

In our previous papers, it has been reported that when rings and shells are subjected to an internal uniformly-distributed pressure pulse, dynamic elastic buckling due to the nonlinear coupling between the breathing mode and bending modes may occur and further cause the strain growth phenomenon in explosion containment vessels. In this study, the influence of defect distribution on dynamic buckling of plane-strain rings under internal uniformly-distributed pressure pulse is studied, in which three cases with one defect, six defects and twelve defects are employed in the finite element model. It is found that defects influence the initial buckling response shapes and occurrence of dynamic buckling. However, the excited bending mode is the same for the different defect distribution cases.

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内均匀压力脉冲作用下缺陷分布对环动弹性屈曲的影响

在我们之前的论文中，已经报道了当环壳受到内部均匀分布的压力脉冲时，由于呼吸模式和弯曲模式之间的非线性耦合，可能会发生动态弹性屈曲，并进一步引起爆炸安全壳的应变增长现象。本文研究了在内均布压力脉冲作用下，缺陷分布对平面应变环动屈曲的影响，分别采用1个缺陷、6个缺陷和12个缺陷三种情况建立有限元模型。研究发现，缺陷影响了初始屈曲响应的形状和动态屈曲的发生。然而，不同缺陷分布情况下的受激弯曲模态是相同的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 5: High-Pressure Technology; ASME Nondestructive Evaluation, Diagnosis and Prognosis Division (NDPD); Rudy Scavuzzo Student Paper Symposium and 26th Annual Student Paper Competition

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