近地爆炸载荷数值模拟网格尺寸的确定方法

IF 5 Q1 ENGINEERING, MULTIDISCIPLINARY Defence Technology(防务技术) Pub Date : 2024-08-01 DOI:10.1016/j.dt.2023.08.004
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引用次数: 0

摘要

为了提高城市基础设施的整体抗灾能力,需要对城市中的重要建筑结构进行抗爆设计。对于城市中的复杂地形,建议通过数值模拟来确定结构的爆炸荷载。由于数值模型的网格大小在很大程度上取决于爆炸情况,因此网格大小的选择没有普遍适用的方法。本研究提出了一种根据爆炸场景确定近地爆炸数值模型网格尺寸的有效方法。研究了不同炸药重量下网格尺寸对爆炸波传播的影响,并描述了网格尺寸影响与炸药重量或缩放距离之间的相关性。根据有限元法原理和霍普金森-克朗兹缩放定律,提出了与炸药重量相关的网格尺寸测量单位,作为数值模拟中确定网格尺寸的标准。最后,通过比较数值模拟和爆炸试验的结果,验证了本文所提方法的适用性,并在 AUTODYN 中进行了验证。
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Determination method of mesh size for numerical simulation of blast load in near-ground detonation

In order to improve the overall resilience of the urban infrastructures, it is required to conduct blast resistant design for important building structures in the city. For complex terrain in the city, it is recommended to determine the blast load on the structures via numerical simulation. Since the mesh size of the numerical model highly depends on the explosion scenario, there is no generally applicable approach for the mesh size selection. An efficient method to determine the mesh size of the numerical model of near-ground detonation based on explosion scenarios is proposed in this study. The effect of mesh size on the propagation of blast wave under different explosive weights was studied, and the correlations between the mesh size effect and the charge weight or the scaled distance was described. Based on the principle of the finite element method and Hopkinson-Cranz scaling law, a mesh size measurement unit related to the explosive weight was proposed as the criterion for determining the mesh size in the numerical simulation. Finally, the applicability of the method proposed in this paper was verified by comparing the results from numerical simulation and the explosion tests and was verified in AUTODYN.

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来源期刊
Defence Technology(防务技术)
Defence Technology(防务技术) Mechanical Engineering, Control and Systems Engineering, Industrial and Manufacturing Engineering
CiteScore
8.70
自引率
0.00%
发文量
728
审稿时长
25 days
期刊介绍: Defence Technology, a peer reviewed journal, is published monthly and aims to become the best international academic exchange platform for the research related to defence technology. It publishes original research papers having direct bearing on defence, with a balanced coverage on analytical, experimental, numerical simulation and applied investigations. It covers various disciplines of science, technology and engineering.
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