The numerical studies of the multi-stage damage behavior of an explosively-driven HR2 cylinder

PROCEEDINGS OF THE INTERNATIONAL CONFERENCE OF COMPUTATIONAL METHODS IN SCIENCES AND ENGINEERING 2019 (ICCMSE-2019) Pub Date : 2019-12-10 DOI:10.1063/1.5138083

Jia Yuxi, Jian Songqing, L. Wentao, Xiong Jun

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Abstract

The damage in the metallic thick-walled cylinder expanded by explosive load is highly complicated and is particularly important to the design of munitions and armaments. A serial of experiments with different strain rate in steel have been done to explore the fracture behavior in the metallic cylinder [1] ∼ [8]. Figure 1 shows the sketch of the experimental specimen and the field [8]. The experimental results in the Fig. 2 revealed that the shear fracture was dominant while the cylinder deformed at a high strain rate [1], [3]. As the Fig.3, the recovered fragments showed the damage in the cylinder contained many fracture mechanisms such as spallation, tensional fraction and adiabatic shear band [3].The damage in the metallic thick-walled cylinder expanded by explosive load is highly complicated and is particularly important to the design of munitions and armaments. A serial of experiments with different strain rate in steel have been done to explore the fracture behavior in the metallic cylinder [1] ∼ [8]. Figure 1 shows the sketch of the experimental specimen and the field [8]. The experimental results in the Fig. 2 revealed that the shear fracture was dominant while the cylinder deformed at a high strain rate [1], [3]. As the Fig.3, the recovered fragments showed the damage in the cylinder contained many fracture mechanisms such as spallation, tensional fraction and adiabatic shear band [3].

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爆炸驱动HR2气缸多级损伤行为的数值研究

金属厚壁圆筒在爆炸载荷作用下的损伤是一个非常复杂的问题，对弹药和武器装备的设计具有重要意义。为了研究金属圆柱体在不同应变速率下的断裂行为，进行了一系列试验[1]~[8]。图1为实验试件及现场示意图[8]。从图2的实验结果可以看出，在高应变速率下圆筒变形以剪切断裂为主[1]，[3]。从图3中可以看出，圆柱体内部的损伤包含了多种断裂机制，如散裂、张拉分数和绝热剪切带等[3]。金属厚壁圆筒在爆炸载荷作用下的损伤是一个非常复杂的问题，对弹药和武器装备的设计具有重要意义。为了研究金属圆柱体在不同应变速率下的断裂行为，进行了一系列试验[1]~[8]。图1为实验试件及现场示意图[8]。从图2的实验结果可以看出，在高应变速率下圆筒变形以剪切断裂为主[1]，[3]。从图3中可以看出，圆柱体内部的损伤包含了多种断裂机制，如散裂、张拉分数和绝热剪切带等[3]。

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PROCEEDINGS OF THE INTERNATIONAL CONFERENCE OF COMPUTATIONAL METHODS IN SCIENCES AND ENGINEERING 2019 (ICCMSE-2019)

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