利用勒梅特模型对薄壳的延性损伤演变进行动态屈曲分析

Iheb Hammar, Mohamed Djermane, Belkacem Amieur
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引用次数: 0

摘要

薄壳结构用于多个建筑领域,经常暴露在恶劣的动态环境中,因此很容易出现动态不稳定性。在发生这些不稳定性之前,壳体通常会受到不同程度的损坏,因此有必要将这种行为纳入所使用的有限元配方中。这项工作的目的是评估存在损伤时的不同动态不稳定性标准,然后评估这种行为对受到动态激励的壳体稳定性的影响。本项目的方法主要是基于有限元法的数值方法。我们需要在本地开发的 DYNCOQ 程序中引入破坏行为和 Lemaitre 模型标准。为了检验结果,我们介绍了从文献中提取的两个实例。第一个模型旨在确认程序的正常运行和塑性标准(勒迈特模型)的收敛性。第二个模型允许我们测试动态不稳定性。我们将计算结果与之前发表的文献中的实验数据进行了比较,结果显示计算结果与实验结果非常吻合。所得结果证明了在壳体分析中考虑这种行为的实用性。Doi: 10.28991/CEJ-2024-010-03-012 全文:PDF
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamic Buckling Analysis of Ductile Damage Evolution for Thin Shell With Lemaitre’s Model
Thin-shell structures are used in several fields of construction and are often exposed to severe dynamic environments, making them susceptible to dynamic instabilities. These instabilities are typically preceded by varying degrees of damage to the shell, justifying the need to incorporate this behavior in the formulation of the finite elements used. The objective of this work is to evaluate the different dynamic instability criterion in the presence of damage, afterward, evaluate the influence of this behavior on the stability of shells subjected to the dynamic excitations. The methodology of this project is essentially numerical, based on the finite element method. We are asked to program the introduction of damaging behavior and Lemaitre’s model criteria in the DYNCOQ program developed locally. To examine the results, two examples extracted from the literature were presented. The first model aimed to confirm the proper functioning of the program and the convergence of the plasticity criterion (Lemaitre's model). As for the second model, it allows us to test the dynamic instability. A comparison was made with experimental data from previously published literature, revealing a strong agreement between the calculated and experimental results. The obtained results prove the utility of considering this behavior in the shell analysis. Doi: 10.28991/CEJ-2024-010-03-012 Full Text: PDF
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