[1]杨威,毛龙,王文平,等.基于ANSYS的气体发生器处于非稳态下的温度与应力[J].固体火箭技术,2019,42(02):164-170.
 YANG Wei,MAO Long,WANG Wenping,et al.Temperature and stress of gas generator under unsteady state based on ANSYS[J].Journal of Solid Rocket Technology,2019,42(02):164-170.
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基于ANSYS的气体发生器处于非稳态下的温度与应力

参考文献/References:

[1]贾晓东,高原文.热电器件焊接层热电耦合应力分布特征[J].兰州大学学报(自科版),2011,47(1):91-96.JIA Xiaodong,GAO Yuanwen.Distribution characteristics of thermoelectric coupling stress in the solder layer of thermoelectric devices [J].Journal of Lanzhou University (Natural Sciences),2011,47(1):91-96.[2]Tachibana M,Fang J.An estimation of thermal stress of thermoelectric devices in the temperature cycling test[J].Procedia Engineering,2012,27:177-185.[3]Jin Z H.Thermal stresses in a multilayered thin film thermoelectric structure [J].Microelectronics Reliability,2014,54(6-7):1363-1368.[4]刘伟,陈樊,石俊涛,等.烟火式气体发生器燃烧过程的数值模拟和试验研究[J].爆破器材,2017,46(1):24-33.LIU Wei,CHEN Fan,SHI Juntao,et al.Numerical simulation and Experiment study on the combustion process for a pytotechnic airbag inflator[J].Explosive Materials,2017,46(1):22-33.[5]姚俊,罗运强,牛振宇,等.高压力气体发生器低温点火性能[J].当代化工,2013,42(5):624-627.YAO Jun,LUO Yunqiang,NIU Zhenyu,et al.Low temperature ignition performance of high pressure gas generator[J].Contemporary Chemical Industry,2013,42(5):624-627.[6]刘柳,张文龙,范智,等.烟火式筒状气体发生器压力性能调节技术[J].四川兵工学报,2014,35(5):119-123.LIU Liu,ZHANG Wenlong,FAN Zhi,et al.Pyrotechnic cylinder gas generator pressure regulating technology[J].Journal of Sichuan Ordnance,2014,35(5):119-123.[7]张丽梅,高致.气体发生器燃烧室压强影响因素分析[J].航天返回与遥感,2016,34(6):39-45.ZHANG Limei,GAO Zhi.Analysis of effect factors for pressure of combustion chamber [J].Spacecraft Recovery & Remote Sensing,2016,34(6):39-45.[8]黄寅生,戴实之,沈瑞琪,等.汽车防撞气囊用气体发生剂燃烧特性探讨[J].火工品,1996(1):9-12.HUANG Yinsheng,DAI Shizhi,SHEN Ruiqi,et al.Combustion characteristics research of gas generating composition used to automobile crash airbag [J].Initiators & Pyrotechnics,1996(1):9-12.[9]黄寅生,沈瑞琪,戴实之,等.气体发生器中心点火管燃烧过程的数值计算[J].火工品,1996(3):17-20.HUANG Yinsheng,SHEN Ruiqi,DAI Shizhi,et al.The numerical simulation of combustion process for the centre initiator in gas generator [J].Initiators & Pyrotechnics,1996(3):17-20.[10]陈雨,杨正才,仵和平,等.一种新型气体发生器的过滤冷却设计[J].火工品,2013(2):14-16.CHEN Yu,YANG Zhengcai,WU Heping,et al.A design on filter and cooling for new gas generator[J].Initiators & Pyrotechnics,2013(2):14-16.[11]Tingzhen Ming,Wei Yang,Yongjia Wu,et al.Numerical analysis on the thermal behavior of a segmented thermoelectric generator[J].International Journal of Hydrogen Energy,2017,42:3521-3535. [12]李鑫.TC11钛合金的热态变形行为及其锻造工艺优化研究[D].南京:南京航空航天大学,2008.LI Xin.Research on hot deformation behavior and optimization of forging process of titanium alloy TC11[D].Nanjing:Nanjing University of Aeronautics and Astronautics,2008.[13]何庆稀.钛合金TC11毛坯热处理过程数值模拟[J].机电工程,2008,25(5):104-106.HE Qingxi.Numerical simulation for heat treatment process of titanium alloy TC11[J].Mechanical & Elecirical Engineering Magazine,2008,25(5):104-106.

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更新日期/Last Update: 2019-05-05
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