Simulation of Explosion Crater of Earth Penetrating Nuclear Bomb Based on Equivalency to TNT Mass

Pub Date : 2023-05-12 DOI:10.14429/dsj.73.18618
Liangquan Wang, Deren Kong, Fei Shang, Chuyang Zhang
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 The structure size of the crater formed by the earth-penetrating nuclear bomb explosion is one of the important parameters for evaluating the earth-penetrating nuclear bomb damage power. Obtaining the structure size of the crater formed by the earth-penetrating nuclear bomb explosion with different yields is great significance for the evaluation and design of the nuclear bomb damage power. In this study, considering the contradictory relationship between the structure size of the earth-penetrating nuclear bomb and the structure size of the equivalent TNT mass, we propose to use the equivalent energy mapping method to realize the finite element numerical simulation of the earth-penetrating nuclear bomb exploding into craters analyzed and compared the simulation results with the structure size of the crater formed by the ESS nuclear bomb explosion in the United States. The analysis results show that the error between the simulated crater radius and the real crater radius is 3.26%, and the error between the simulated crater depth and the real crater depth is 28.57 %. It meets the calculation accuracy error range of crater formation from nuclear explosion to chemical explosion. Therefore, this method provides an effective numerical simulation method and a means of obtaining the structural size data of the explosion crater for the earth-penetrating nuclear bomb cratering.
 
 
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Abstract

The structure size of the crater formed by the earth-penetrating nuclear bomb explosion is one of the important parameters for evaluating the earth-penetrating nuclear bomb damage power. Obtaining the structure size of the crater formed by the earth-penetrating nuclear bomb explosion with different yields is great significance for the evaluation and design of the nuclear bomb damage power. In this study, considering the contradictory relationship between the structure size of the earth-penetrating nuclear bomb and the structure size of the equivalent TNT mass, we propose to use the equivalent energy mapping method to realize the finite element numerical simulation of the earth-penetrating nuclear bomb exploding into craters analyzed and compared the simulation results with the structure size of the crater formed by the ESS nuclear bomb explosion in the United States. The analysis results show that the error between the simulated crater radius and the real crater radius is 3.26%, and the error between the simulated crater depth and the real crater depth is 28.57 %. It meets the calculation accuracy error range of crater formation from nuclear explosion to chemical explosion. Therefore, this method provides an effective numerical simulation method and a means of obtaining the structural size data of the explosion crater for the earth-penetrating nuclear bomb cratering.
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基于TNT当量质量的穿地核弹爆坑模拟
& # x0D;& # x0D;& # x0D;钻地核弹爆炸形成的弹坑结构尺寸是评价钻地核弹破坏力的重要参数之一。获得不同当量钻地核弹爆炸形成的弹坑结构尺寸,对核弹毁伤威力的评估和设计具有重要意义。本研究考虑到钻地核弹的结构尺寸与等效TNT质量的结构尺寸之间的矛盾关系,提出采用等效能量映射法实现钻地核弹爆炸成弹坑的有限元数值模拟,并将模拟结果与美国ESS核弹爆炸形成的弹坑结构尺寸进行分析比较。分析结果表明,模拟陨石坑半径与真实陨石坑半径的误差为3.26%,模拟陨石坑深度与真实陨石坑深度的误差为28.57%。满足核爆炸到化学爆炸形成弹坑的计算精度误差范围。因此,该方法为钻地核弹弹坑提供了有效的数值模拟方法和获取弹坑结构尺寸数据的手段。 & # x0D;& # x0D;
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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