Simulation of pyroshock environment and effect rules of shock response spectrum

W. Wang, K. Huang, F. Zhao
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Abstract

The high-frequency and high-amplitude pyroshock environment during the service of the spacecraft will cause damage to the equipment. Here, we develop a shock test device based on air cannon to simulate the above pyroshock environment. Then, a finite element model was established by explicit dynamic software ANSYS/LS-DYNA, and the simulation results were proved to be consistent with the test data. Based on the theory of Shock Response Spectrum (SRS), the effects of device parameters such as pressure, bullet material and resonant plate material on SRS were investigated via numerical simulation and shock test. This study shows that the amplitude of SRS increases with the increase of pressure in the range of 0.15–0.60 MPa, and the break frequency amplitude has a square root function relationship with the pressure. Additionally, the high-frequency amplitude of SRS was affected by the energy transfer efficiency of the bullet.
热冲击环境模拟及冲击响应谱影响规律
航天器在服役过程中的高频、高振幅热冲击环境会对设备造成损伤。在此,我们研制了一种基于空气炮的冲击试验装置来模拟上述热冲击环境。然后利用显式动力学软件ANSYS/LS-DYNA建立有限元模型,仿真结果与试验数据吻合较好。基于冲击响应谱(SRS)理论,通过数值模拟和冲击试验研究了压力、弹体材料和谐振板材料等器件参数对SRS的影响。研究表明,在0.15 ~ 0.60 MPa范围内,SRS振幅随压力的增加而增大,断裂频率振幅与压力呈平方根函数关系。此外,弹体的能量传递效率也会影响SRS的高频振幅。
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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