基于不平衡响应的转子动刚度测量方法
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摘要
基于转子不平衡响应原理,推导了转子动刚度计算方法,建立了一种转子系统动刚度测量方法。在某双盘转子试验器上开展了转子动刚度测量实验。实验结果表明:由转子动刚度曲线计算的一阶临界转速最大误差为1.5%;以盘一、盘二处的轴系静刚度为基准,由动刚度曲线计算的轴系静刚度最大测量误差为5.7%。利用转子动刚度研究了不同支座地脚螺栓拧紧力矩对转子系统的影响,结果表明:当支座反力小于支座拧紧力矩所能产生的最大静摩擦力时,增加支座连接刚度并不会改变转子系统的动刚度。
Based on rotor unbalance response theory, the computing method of rotor dynamic stiffness was deduces, and the measuring ways was established. The rotor dynamic stiffness was measured on a two-disk rotor. The experimental results show: the maximum error of the critical speed is 1.5% gained from the rotor dynamic stiffness curve;the maximum measuring error of the rotor dynamic stiffness is 5.7% taking rotor static-stiffness as standard. The research on how the tightening torque of screws on the base plate of the rotor support made influences on a rotor was carried out. Experimental results turn out that increasing coupling stiffness could not change rotor system dynamic stiffness if the reaction force on the support was less than the maximum static friction generated by the tightening torque.
Based on rotor unbalance response theory, the computing method of rotor dynamic stiffness was deduces, and the measuring ways was established. The rotor dynamic stiffness was measured on a two-disk rotor. The experimental results show: the maximum error of the critical speed is 1.5% gained from the rotor dynamic stiffness curve;the maximum measuring error of the rotor dynamic stiffness is 5.7% taking rotor static-stiffness as standard. The research on how the tightening torque of screws on the base plate of the rotor support made influences on a rotor was carried out. Experimental results turn out that increasing coupling stiffness could not change rotor system dynamic stiffness if the reaction force on the support was less than the maximum static friction generated by the tightening torque.
引文
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[2]廖明夫.转子动力学基础[M].西安:西北工业大学,2015.
[3]白中祥,吴伟亮,刘闳钊.支承系统的刚度对转子动力特性的影响[J].机械设计与研究,2012,28(4):18-25.
[4]洪杰,王华,肖大为,等.转子支承动刚度对转子动力特性的影响分析[J].航空发动机,2008,34(1):23-27.
[5]邓旺群,聂卫健,何萍,等.高速柔性转子临界转速随支承刚度的变化规律[J].噪声与振动控制,2015,35(3):98-101.
[6]张大义,母国新,洪杰.航空发动机转子支承系统刚度计算中的几个问题[J].战术导弹技术,2005(2):20-23
[7]杜兆刚,张艳春,刘少权.MS9001E燃气轮机转子支座结构动刚度测试研究[J].燃气轮机技术,2010,23(1):30-33.
[8]CHU F L,TANG Y.Stability and non-linear responses of a rotorbearing system with pedestal looseness[J].Journal of Sound and Vibration,2001,241(5):879-893.
[9]JI Z,ZU J W.Methodof multiplescales for vibration analysisof rotorshaft systems with non-linear bearing pedestal model[J].Journal of Sound and Vibration,1998,218(2):293-305.
[10]KIM Y B,NOAH S T.Stability and bifurcation analysis of oscillators with piecewise-linear characteristics:a generalapproach[J].ASME Journal of Applied Mechanics,1991,58(6):545-554.
[11]马辉,孙伟,刘杰,等.旋转机械支座松动故障的试验[J].农业机械学报,2007,38(6):134-137.
[12]薛一谔,何衍宗,王正,等.转子动力学[M].北京:清华大学出版社,1987.
[13]顾家柳,丁奎元,刘启洲,等.转子动力学[M].北京:国防工业出版社,1985.
[14]苟文选.材料力学[M].西安:西北工业大学出版社,2000.
[15]王三民,诸文俊.机械原理与设计[M].北京:机械工业出版社,2007.
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