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兵工学报 ›› 2017, Vol. 38 ›› Issue (7): 1289-1300.doi: 10.3969/j.issn.1000-1093.2017.07.006

• 论文 • 上一篇    下一篇

灌封材料对侵彻过载下弹载器件的防护分析

徐萧1, 高世桥1, 牛少华1, 申丽2, 刘海鹏1, 欧卓成1   

  1. (1.北京理工大学 机电学院, 北京 100081; 2.中国兵器工业导航与控制研究所, 北京 100089)
  • 收稿日期:2016-10-26 修回日期:2016-10-26 上线日期:2018-04-12
  • 作者简介:徐萧(1990—),女,博士研究生。E-mail:xuxiao_1990@126.com
  • 基金资助:
    国家自然科学基金项目(11370245)

Dynamic Analysis of Projectile-borne Electronic Devices under Impact Loading

XU Xiao1, GAO Shi-qiao1, NIU Shao-hua1, SHEN Li2, LIU Hai-peng1, OU Zhuo-cheng1   

  1. (1.School of Mechatronic Engineering, Beijing Institute of Technology, Beijing 100081, China;2.Institute of Navigation and Control Technology, China North Industries Group Corporation, Beijing 100089, China)
  • Received:2016-10-26 Revised:2016-10-26 Online:2018-04-12

摘要: 为研究在灌封材料缓冲保护下弹载器件对冲击载荷的动态响应,利用LS-DYNA用户材料自定义程序UMAT二次开发平台,编写朱-王-唐(ZWT)非线性黏弹性本构模型的材料子程序,并将ZWT模型应用于弹体内部灌封材料的动态仿真。通过调整ZWT模型的非线性弹性模量、低应变率Maxwell单元的弹性常数、高应变率Maxwell单元的弹性常数、高应变率Maxwell单元的松弛时间和材料密度,得出不同参数对应下,弹体内部电子器件不同的动力学响应,并分析灌封材料各参数变化对于弹体内部电子器件响应造成的影响。研究结果表明:当非线性弹性模量、低应变率Maxwell单元的弹性常数、高应变率Maxwell单元的松弛时间和材料密度的数值降低时,灌封材料的减振和防护效果更佳。根据仿真结果提出了针对不同工程需求的材料优化方案。

关键词: 兵器科学与技术, 非线性黏弹性模型, 电子器件, 数值仿真

Abstract: The dynamic responses of projectile-borne electronic devices which are protected by encapsulating material under impact loading are studied through numerical simulation. A LS-DYNA user defined material subroutine is established according to the ZWT nonlinear viscoelastic model which is used for simulating the dynamic response of the encapsulating material in the projectile. The simulations of projectile penetration were performed by adjusting the controllable parameters of ZWT model, such as nonlinear elasticity modulus, low strain rate Maxwell elastic constant, high strain rate Maxwell elastic constant, high strain rate Maxwell relaxation time and material density. Thus the dynamic responses of projectile-borne electronic devices could be obtained from the numerical results. The research results show that the shock absorption and protection effects of the encapsulating materials are better when the values of nonlinear elasticity modulus, low strain rate Maxwell elastic constant, high strain rate Maxwell relaxation time and material density are decreased. Key

Key words: ordnancescienceandtechnology, nonlinearviscoelasticmodel, electronicdevice, numericalsimulation

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