Numerical Simulation on the Characteristics of Debris Clouds Produced by Hypervelocity Impact on Pressure Vessels

机译：超高速撞击压力容器产生的碎屑云特征的数值模拟

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In the paper SPH (Smoothed Particle Hydrodynamics) methods in AUTODYN-2D is used to investigate the characteristics of debris clouds propagation inside the gas-filled pressure vessels for hypervelocity impact on the pressure vessels. And a better correlation between experimental and numerical results is obtained. The result shows that the venting time of vessels is related with "vacuum pole" which in impact-axial direction, which gas pressure can reduce the damage of the debris clouds' impact on the rear wall vessels when the pressure value is in a certain range.

机译：在本文中，使用AUTODYN-2D中的SPH（平滑粒子流体动力学）方法来研究碎屑云在充气压力容器内部传播的特性，从而对压力容器产生超高速冲击。并获得了实验结果与数值结果之间更好的相关性。结果表明，容器的排气时间与“真空极”有关，在冲击轴方向上，当压力值在一定范围内时，气压可以减少碎片云对后壁容器的破坏。。

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《International Conference on Future Generation Communication and Networking》|2014年|142-145|共4页
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Liu Xun; Gai Fangfang; Xing Hualu;
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design engineering; impact (mechanical); mechanical engineering computing; pressure vessels; smoothed particle hydrodynamics; AUTODYN-2D; SPH; debris cloud; gas pressure; gas-filled pressure vessel; hypervelocity impact; impact-axial direction; rear wall vessel; smoothed particle hydrodynamics; vacuum pole; venting time; Clouds; Earth Observing System; Educational institutions; Numerical models; Numerical simulation; Projectiles; Shock waves; debris cloud; hypervelocity impact; numerical simulation; pressure vessels;

机译：设计工程;冲击（机械）;机械工程计算;压力容器;光滑的颗粒流体力学; AUTODYN-2D; SPH;碎屑云;气压;充气压力容器;超高速冲击;冲击轴向;后壁容器;光滑粒子流体动力学;真空极;通气时间;云;地球观测系统;教育机构;数值模型;数值模拟;弹丸;冲击波;碎片云;超高速冲击;数值模拟;压力容器;

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1. Experimental Study On Expansion Characteristics Of Debris Clouds Produced By Oblique Hypervelocity Impact Of Ly12 Aluminum Projectiles With Thin Ly12 Aluminum Plates [J] . Q. Zhang, Y. Chen, F. Huang, International journal of impact engineering . 2008,第12期

机译：Ly12铝弹与薄Ly12铝板的斜超高速冲击产生的碎片云膨胀特性的实验研究
2. A new engineering model of debris cloud produced by hypervelocity impact [J] . Jie Huang, Zhao-xia Ma, Lei-sheng Ren, International journal of impact engineering . 2013,第juna期

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3. A Model For Debris Clouds Produced By Impact Of Hypervelocity Projectiles On Multiplate Structures [J] . Qingming Zhang, Renrong Long, Fenglei Huang, Applied Physicsletters . 2008,第21期

机译：超高速弹丸撞击多板结构产生的碎屑云模型
4. Numerical Simulation on the Characteristics of Debris Clouds Produced by Hypervelocity Impact on Pressure Vessels [C] . Liu Xun, Gai Fangfang, Xing Hualu International Conference on Future Generation Communication and Networking . 2014

机译：高档影响对压力容器产生的碎片云特性的数值模拟
5. Experimental investigation into catastrophic failure of pressure vessels due to hypervelocity impact. [D] . Olsen, Gregory Dana. 2001

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8. Formation and Description of Debris Clouds Produced by Hypervelocity Impact [R] . Piekutowski, A. J. 1996

机译：超高速撞击产生的碎片云的形成与描述

Numerical Simulation on the Characteristics of Debris Clouds Produced by Hypervelocity Impact on Pressure Vessels

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