[1] 于欢,马艳红,肖森,等.高速柔性转子支承松动力学特征及动力特性[J].北京航空航天大学学报,2017,43(8):1677-1683. YU Huan,MA Yanhong,XIAO Sen,et al. Mechanical and dynamic characteristics of bearing with looseness on high-speed flexible rotor[J]. Journal of Beijing University of Aeronautics and Astronautics,2017,43(8):1677-1683. [2] 陈果.转子-滚动轴承-机匣耦合系统的不平衡/松动耦合故障非线性动力学[J].机械工程学报,2008,44(3):82-88. CHEN Guo. Nonlinear dynamics of unbalance-looseness coupling fults of rotor-ball bearing-stator coupling system[J]. Chinese Journal of Mechanical Engineering,2008,44(3):82-88. [3] 芮品先.有界噪声激励下基座松动/碰摩故障转子动力学行为的实验研究[D].杭州:浙江大学,2016. RUI Pinxian. experimental research on dynamic behavior of a rotor with base looseness/rub fault under bounded noise excitation[D]. Hangzhou:Zhejiang University,2016. [4] 徐洪志,王南飞,蒋东翔.双转子系统轴承座松动的动力学模型及故障特性[J].航空动力学报,2016,31(11):2781-2794. XU Hongzhi,WANG Nanfei,JIANG Dongxiang. Bearing pedestal looseness dynamic model of dual rotor system and fault feature[J]. Journal of Aerospace Power,2016,31(11):2781-2794. [5] 王海飞,陈果,廖仲坤,等.含支承松动故障的弹用涡扇发动机整机振动建模与机匣响应特性[J].航空动力学报,2015,30(3):627-638. WANG Haifei,CHEN Guo,LIAO Zhongkun,et al. Vibration modeling and casing response characteristics of an integral turbofan engine with support loose fault[J]. Journal of Aerodynamics,2015,30(3):627-638. [6] 刘杨,太兴宇,马辉,等.双盘三支撑转子轴承系统松动-碰摩耦合故障分析[J].航空动力学报,2013,28(5):977-982. LIU Yang,TAI Xingyu,MA Hui,et al. Looseness-rubbing coupling fault of dual-disk three-support rotor-bearing system[J]. Journal of Aerospace Power,2013,28(5):977-982. [7] 马辉,太兴宇,汪博,等.松动-碰摩耦合故障转子系统动力学特性分析[J].机械工程学报,2012,48(19):80-86. MA Hui,TAI Xingyu,WANG Bo,et al. Dynamic characteristic analysis of a rotor system with pedestal looseness coupled rub-impact fault[J]. Journal of Vibration Engineering,2012,48(19):80-86. [8] 王海飞,陈果.连接件松动的非同步振动响应特征分析与验证[J].工程力学,2016, 33(4):225-232. WANG Haifei,CHEN Guo. Analysis and verification of characteristics of non-synchronous vibration response of loose joints[J]. Engineering Mechanics,2016,33(4):225-232. [9] GOLDMAN P,MUSZYNSKA A. Analytical and experimental simulation of loose pedestal dynamic effects of a rotating machine vibrational response[J]. Rotating Machinery and Vehicle Dynamics,ASME,1991,35:11-17. [10] CHU Fulei,TANG Yun. Stability and non-linear response of a rotor-bearing system with pedestal looseness[J]. Journal of Sound and Vibration,2001,241(5):879-893. [11] LU Wenxiu,CHU Fulei. Experimental investigation of pedestal looseness in a rotor-bearing system[J]. Key Engineering Materials,2009,413-414:599-605. [12] MUSZYNSKA A,GOLDMAN P. Chaotic responses of unbalanced rotor/bearing/stator systems with looseness or rubs[J]. Chaos Solitons & Fractals,1995,5(9):1683-1704. [13] MUSZYNSKA A. Rotordynamics[M]. Boca Raton,FL:CRC Press,2005. [14] 张靖,李鹤,闻邦椿.动态油膜-转子系统的支座松动故障研究[J].东北大学学报,2003,24(10):962-965. ZHANG Jing,LI He,WEN Bangchun. On the pedestal looseness of dynamic oil film-rotor system[J]. Journal of Northeastern University,2003,24(10):962-965. [15] 张靖,闻邦椿.带有两端支座松动故障的转子系统的振动分析[J].应用力学学报,2004,20(3):67-71. ZHANG Jing,WEN Bangchun. Vibration characteristics of a rotor system with pedestal looseness at two supports[J]. Chinese Journal of Applied Mechanics,2004,20(3):67-71. [16] JIANG Mian,WU Jigang,PENG Xinsheng,et al. Nonlinearity measure based assessment method for pedestal looseness of bearing-rotor systems[J]. Journal of Sound and Vibration,2017,411. [17] BEHZAD M,ASAYESH M. Vibration analysis of rotating shaft with loose disk,IJE Transactions B:Applications,2002,15(4):385-393. [18] BEHZAD M,ASAYESH M. Numerical and experimental investigation of the vibration of rotors with loose discs[J]. Mechanical Engineering Science,Proc. IMechE Part C,2010,224:85-94. [19] 杨绪灿,金建三.弹性力学[M].北京:高等教育出版社,1987. YANG Xucan,JIN Jiansan. Elasticity[M]. Beijing:Higher Education Press,1987. [20] TIMOSHENKO S,GOODIER J N. Theory of elasticity[M]. McGraw Book Company,Inc.,1951. |