Numerical Analysis of the Stability of Underground Granite Chamber Under the Combined Effect of Penetration and Explosion

Numerical Analysis of the Stability of Underground Granite Chamber Under the Combined Effect of Penetration and Explosion

In recent years, the majority of countries have focused on the development of earth-penetrating weapons and the construction of deep underground fortifications. It is therefore necessary to assess the damage to underground structures under the attacks of earth-penetrating weapons. In this paper, flu...

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Bibliographic Details
Main Authors: Yuchao Zhang, Shaohu Jin, Kewei Liu, Rukun Guo
Format: Article
Language:English
Published: MDPI AG 2025-08-01
Series:Buildings
Subjects:
underground chamber
penetration
explosion
peak particle velocity (PPV)
finite element
stability analysis
Online Access:https://www.mdpi.com/2075-5309/15/15/2741
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Summary:In recent years, the majority of countries have focused on the development of earth-penetrating weapons and the construction of deep underground fortifications. It is therefore necessary to assess the damage to underground structures under the attacks of earth-penetrating weapons. In this paper, fluid–solid coupling and restarting methods are used to simulate the damage processes of a granite chamber subjected to the combined action of penetration and explosion with the commercial software of LS-DYNA R11. The applicability of the penetration model and the blasting model is verified by the previous penetration and blasting tests. The verified models are used to simulate the complete process of the underground granite chamber attacked by the earth-penetrating weapons. Based on peak particle velocity (PPV) damage criteria, the numerical results show that the hypervelocity impact of the earth penetrating weapons only causes local damage to the granite rock mass, and more serious damage is caused by the subsequent explosion. During the subsequent explosion, part of the detonation products and energy can escape along the penetration trajectory with the blast loading, resulting in the attenuation of blast stress waves. Subsequently, the relationship between the overlay thickness and the vibration attenuation in granite is also studied, which provides a fast method to determine the threshold damage level for an underground chamber to collapse under the attacks of earth-penetrating weapons.
ISSN:2075-5309

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