金属橡胶隔振器抗冲击性能研究
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摘要
对金属橡胶隔振器的冲击性能进行了理论和实验研究。借助于金属橡胶构件的加载曲线和迟滞回线,研究了具有非线性干摩擦阻尼隔冲系统在短冲击和长冲击时的最大响应的计算方法,并借助于M atlab实现了最大冲击响应的逐步积分计算。通过实验研究了构件结构形状和参数、负载质量、冲击加速度等对金属橡胶构件抗冲击性能的影响,对理论方法进行了验证,为工程实践提供了依据。
The shock protection characteristics of a metal rubber isolator were studied theoretically and experimentally.Based on primary loading curve and hysteresis loop of isolators,the calculation method for maximum response of a nonlinear shock protection system with dry friction damping to short and long shock impulses was proposed.The stepping integration of the maximum response was programmed using Matlab software.The effects of structural parameters,loading,and shock acceleration level on the shock protection performance of metal rubber isolators were studied experimentally to testify the theoretical calculation method.The results are beneficial to engineering application of metal rubber isolators.
The shock protection characteristics of a metal rubber isolator were studied theoretically and experimentally.Based on primary loading curve and hysteresis loop of isolators,the calculation method for maximum response of a nonlinear shock protection system with dry friction damping to short and long shock impulses was proposed.The stepping integration of the maximum response was programmed using Matlab software.The effects of structural parameters,loading,and shock acceleration level on the shock protection performance of metal rubber isolators were studied experimentally to testify the theoretical calculation method.The results are beneficial to engineering application of metal rubber isolators.
引文
[1]Д.Е.Чегодаев,О.П.Мулюкин,Ю.К.Пономорев等.金属橡胶构件的设计[M].李中郢译.北京:国防工业出版社,2000.
[2]姜洪源,夏宇宏,敖宏瑞,闫辉.航空发动机用特种金属橡胶构件的应用[J].研究燃气涡轮实验与研究,2003,16(3):1—5.
[3]郭宝亭,朱梓根,崔荣繁,庞为.金属橡胶材料的理论模型研究[J].航空动力学报,2004,19(3):314—319.
[4]敖宏瑞,姜洪源,闫辉,夏宇宏.基于小波变换的金属橡胶干摩擦系统阻尼识别[J].机械设计,2004,21(7):27—30.
[5]M ario Paz.结构动力学—理论与计算[M].李裕澈,刘勇生译.北京:地震出版社,1993.
[6]朱石坚.振动理论与隔振技术[M].北京:国防工业出版社,2006.
[7]李惠彬.振动理论与工程应用[M].北京:北京理工大学出版社,2006.
[8]屈维德,唐恒龄.机械振动手册[M].北京:机械工业出版社,2000.
[9]单树军,何琳,束立红.冲击理想化为速度阶跃的适用范围及其误差[J].振动与冲击,2005,5(24):49—52.
[10]В. =Н. Челомей.Вибрации в технике:Справочни.к[M].В6—ти.Москв.аМашиностроени.е1981.
[2]姜洪源,夏宇宏,敖宏瑞,闫辉.航空发动机用特种金属橡胶构件的应用[J].研究燃气涡轮实验与研究,2003,16(3):1—5.
[3]郭宝亭,朱梓根,崔荣繁,庞为.金属橡胶材料的理论模型研究[J].航空动力学报,2004,19(3):314—319.
[4]敖宏瑞,姜洪源,闫辉,夏宇宏.基于小波变换的金属橡胶干摩擦系统阻尼识别[J].机械设计,2004,21(7):27—30.
[5]M ario Paz.结构动力学—理论与计算[M].李裕澈,刘勇生译.北京:地震出版社,1993.
[6]朱石坚.振动理论与隔振技术[M].北京:国防工业出版社,2006.
[7]李惠彬.振动理论与工程应用[M].北京:北京理工大学出版社,2006.
[8]屈维德,唐恒龄.机械振动手册[M].北京:机械工业出版社,2000.
[9]单树军,何琳,束立红.冲击理想化为速度阶跃的适用范围及其误差[J].振动与冲击,2005,5(24):49—52.
[10]В. =Н. Челомей.Вибрации в технике:Справочни.к[M].В6—ти.Москв.аМашиностроени.е1981.
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