姓名：刘静 出生年月： 学历学位：博士 专业技术职务：副教授

个人简历

重庆大学机械工程学院副教授，博士，博士生导师/硕士生导师；重庆大学机械传动国家重点实验室，固定研究人员。中国振动工程学会转子动力学专业委员会理事。以第一作者身份发表SCI高水平期刊论文28篇，EI期刊论文5篇，其中ESI1%高被引论文1篇，论文被美国、意大利、法国、瑞典、西班牙、芬兰、澳大利亚、丹麦、以色列、日本、印度、埃及、马来西亚、中国、香港等10多个国家和地区的知名学者他引200余次。主持国家自然科学基金青年项目1项，KGJ基础产品创新科研项目1项，重庆市基础科学与前沿技术研究项目1项，牵引动力国家重点实验室开放项目1项，中央高校业务基金费项目3项，企业横向科研项目4项；主研国家自然科学基金面上项目、GF973、ZZ预研项目、重庆市重点产业共性关键技术创新专项以及企业横向科研项目10余项。已为中国振动工程学会转子动力学专业委员会理事及NODY、MSSP、JSV、MMT等14本国际知名期刊的审稿人。

主要研究方向

滚动轴承动力学

有限元仿真分析

齿轮箱振动噪声控制

毕业研究生去向

[此处键入您的毕业研究生去向]

主要研究经历、荣誉称号、获奖情况、社会兼职等

主要学习经历

2003.7-2007.9，重庆大学，本科； 

2007.9-2009.3，重庆大学，硕士； 

2009.3-2014.6，重庆大学，博士； 

2012.9-2013.9，美国University of Maryland, Baltimore County，助理研究员。

 

工作经历

2014.7~2016.8，重庆大学，机械工程学院，讲师

2015.1~至今，重庆大学，机械传动国家重点实验室，固定研究人员

2016.9~至今，重庆大学，机械工程学院，副教授

 

获奖情况

获2014年重庆大学优秀博士论文；

获2015年重庆市优秀博士论文； 

获2015年重庆大学第五届青年教师教学基本功比赛一等奖。

 

主要学术兼职

中国振动工程学会转子动力学分会理事；

Journal of Vibration and Control（2014-），Neural Computing and Applications（2016-）, Industrial Lubrication and Tribology（2016-），Journal of Vibration Engineering & Technologies（2016-），Journal of Nondestructive Evaluation（2016-），Engineering Failure Analysis（2016-），Journal of Southeast University (English Edition)（2017-），Shock and Vibration（2017-），International Journal of Mechanical Sciences（2017-），Nonlinear Dynamics（2017-），Mechanical Systems and Signal Processing（2017-），Measurement（2018-），Journal of Vibroengineering（2018-），Mechanism and Machine Theory（2018-）Journal of Sound and Vibration, （2018-），Measurement Science and Technology,（2018-）等14种国际期刊的审稿人；

The ASME 2018 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference (IDETC/CIE 2018)，7th International Conference on Advanced Materials and Engineering Materials (ICAMEM 2018)，The International Conference on Mechanical, Electric and Industrial Engineering (MEIE2018)等国际会议的审稿人。

公开发表论文（代表作）

期刊论文

[36] Liu J*, Shao Y. The effect of a localized fault in a planet bearing on vibrations of a planetary gear set [J]. Journal of Strain Analysis for Engineering Design, 2018, 53(5): 313-323. (SCI)

[35] Liu J*, Xu Z D, Shao Y, Deng C L. An optimization design method for a body mounting system of a heavy vehicle [J], Journal of Materials: Design and Applications, 2017, Doi: 10.1177/1464420717748971. (SCI)

[34] Liu J*, Shao Y. An analytical dynamic model of a hollow cylindrical roller bearing [J]. ASME Journal of Tribology, 2018, http://sci-hub.tw/10.1115/1.4040382. (SCI)

[33] Liu J*, Yan Z L, Shao Y. An investigation for the friction torque of a needle roller bearing with the roundness error [J]. Mechanism and Machine Theory, 2018, 121: 259-272. (SCI)

[32] Liu J*, Wu H, Shao Y. A theoretical study on vibrations of a ball bearing caused by a dent on the races [J]. Engineering Failure Analysis, 2018, 83: 220-229. (SCI)

[31] Liu J*, Shao Y. Vibration modelling for a rotor-bearing-housing system including a localized fault [J]. Journal of Multi-body Dynamics, 2017, Doi: 10.1177/1464419317738427. (SCI)

[30] Liu J*, Shao Y. Overview of dynamic modelling and analysis of rolling element bearings with localized and distributed faults [J]. Nonlinear Dynamics, 2018, http://sci-hub.tw/10.1007/s11071-018-4314-y. (SCI)

[29] Liu J*, Wu H, Shao Y. The influence of the raceway thickness on the dynamic performances of a roller bearing [J]. Journal of Strain Analysis for Engineering Design, 2017, 52(8): 528-536. (SCI)

[28] Liu J*, Shi Z, Shao Y. A theoretical study for the influence of the combined defect on radial vibrations of a ball bearing [J]. Industrial Lubrication and Tribology, 2018, 70(2): 339-346. (SCI)

[27] Liu J*, Shi Z, Shao Y. Vibration Characteristics of a Ball Bearing Considering Point Lubrication and Nonuniform Surface Waviness [J]. International Journal of Acoustics and Vibration, 2017. (SCI)

[26] 刘静, 吴昊, 邵毅敏, 师志峰. 考虑内圈挡边表面波纹度的圆锥滚子轴承振动特征研究[J]. 机械工程学报, 2018, 54(8): 26-34. (EI)

[25] 刘静*, 师志峰, 邵毅敏. 考虑局部故障边缘形态的球轴承振动特征 [J]. 振动、测试与诊断, 2017, 37(04): 807-813+848. (EI)

[24] Liu J*, Wu H, Shao Y. A comparative study of surface waviness models for predicting vibrations of a ball bearing. SCIENCE CHINA Technological Sciences, 2017, 60(12): 1841-1852. (SCI)

[23] Liu J*, Shao Y. An improved analytical model for a lubricated roller bearing including a localized defect with different edge shapes [J]. Journal of Vibration and Control, 2017: 1077546317716315. (SCI)

[22] Liu J*, Shi Z, Shao Y, Xiao H. Effects of spall edge profiles on the edge plastic deformation for a roller bearing [J]. Journal of Materials: Design and Applications, 2017: 10.1177/1464420717710276. (SCI)

[21] Liu J*, Shi Z, Shao Y. A numerical investigation of the plastic deformation at the spall edge for a roller bearing [J]. Engineering Failure Analysis, 2017, 80: 263-271. (SCI)

[20] Liu J*, Shi Z, Shao Y. An analytical model to predict vibrations of a cylindrical roller bearing with a localized surface defect [J]. Nonlinear Dynamics, 2017, 89(3): 2085-2102. (SCI)

[19] Liu J, Shao Y, Qin X. Dynamic simulation for a tapered roller bearing considering a localized surface fault on the rib of the inner race [J]. Journal of Multi-body Dynamics, 2017, 231(4): 670-683. (SCI)

[18] Liu J*, Shao Y. Vibration modelling of nonuniform surface waviness in a lubricated roller bearing [J]. Journal of Vibration and Control, 2017, 23(7): 1115-1132. (SCI)

[17] Liu J*, Shi Z, Shao Y. An investigation of a detection method for a subsurface crack in the outer race of a cylindrical roller bearing [J]. Eksploatacja i Niezawodnosc-Maintenance and Reliability, 2017, 19 (2): 211-219. (SCI)

[16] Liu J*, Shao Y. Dynamic modeling for rigid rotor bearing systems with a localized defect considering additional deformations at the sharp edges [J]. Journal of Sound and Vibration, 2017, 398(23): 84-102. (SCI)

[15] Liu J*, Shao Y M, Zhu W D. Free vibration analysis of a cantilever beam with a slant edge crack [J]. Journal of Mechanical Engineering Science, 2017, 231(5): 823 - 843. (SCI)

[14] Liu J*, Zhu W D, Charalambides P G, et al. A dynamic model of a cantilever beam with a closed, embedded horizontal crack including local flexibilities at crack tips [J]. Journal of Sound and Vibration, 2016, 382: 274-290. (SCI)

[13] Liu J*, Shao Y. A numerical investigation of effects of defect edge discontinuities on contact forces and vibrations for a defective roller bearing [J]. Journal of Multi-body Dynamics, 2016, 230(4): 387-400. (SCI)

[12] Liu J, Zhu W, Charalambides P G, et al. Four-beam model for vibration analysis of a cantilever beam with an embedded horizontal crack [J]. Chinese Journal of Mechanical Engineering, 2016, 29(1): 163-179. (SCI)

[11] Liu J, Shao Y, Zhu W D. A new model for the relationship between vibration characteristics caused by the time-varying contact stiffness of a deep groove ball bearing and defect sizes [J]. ASME Journal of Tribology, 2015, 137(3): 031101. (SCI)

[10] Liu J, Shao Y. A new dynamic model for vibration analysis of a ball bearing due to a localized surface defect considering edge topographies [J]. Nonlinear Dynamics, 2015, 79(2): 1329-1351. (SCI)

[9] Liu J, Shao Y, Lim T. Impulse vibration transmissibility characteristics in the presence of localized surface defects in deep groove ball bearing systems [J]. Journal of Multi-body Dynamics, 2014, 228(1): 62-81. (SCI)

[8] Shao Y, Liu J, Ye J. A new method to model a localized surface defect in a cylindrical roller-bearing dynamic simulation [J]. Journal of Engineering Tribology, 2014, 228(2): 140-159. (SCI)

[7] 刘静, 邵毅敏, 秦晓猛, 等. 基于非理想 Hertz 线接触特性的圆柱滚子轴承局部故障动力学建模 [J]. 机械工程学报, 2014, 50(1): 91-97. (EI)

[6] Liu J, Shao Y, Zhou J, Fan Y. Vibration analysis of a cylindrical roller bearing considering multiple localized surface defects on races [J]. International Journal of COMADEM, 2014, 17(1): 25-32. (EI)

[5] Chen J, Liu J, Shao Y, Luo C H. Vibration modeling of lubricated rolling element bearing considering skidding in loaded zone [J]. Journal of Failure Analysis and Prevention, 2014, 14 (1): 809-817. (EI)

[4] Xu Y F, Zhu W D, Liu J, Charalambides P G, Shao Y M. Non-model-based damage detection of embedded horizontal cracks [J]. Journal of Sound and Vibration, 2014, 333(23): 6273-6294. (SCI)

[3] Liu J, Shao Y, Zuo M. The effects of the shape of localized defect in ball bearings on the vibration waveform [J]. Journal of Multi-body Dynamics, 2013, 227(3): 261 - 274. (SCI)

[2] Liu J, Shao Y, Lim T C. Vibration analysis of ball bearings with a localized defect applying piecewise response function [J]. Mechanism and Machine Theory, 2012, 56: 156-169. (SCI)

[1] Shao Y, Liu J, Mechefske C K. Drive axle housing failure analysis of a mining dump truck based on the load spectrum [J]. Engineering Failure Analysis, 2011, 18(3): 1049-1057. (SCI)

 

 

会议论文

 

[3] Shi Z, Liu J*, Chen Z, Shao Y. Vibration analysis of a roller bearing with a bump defect [C]. Proceedings of the ASME 2018 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference IDETC2018, August 26-29, 2018, Quebec City, Canada.

[2] Liu J*, Shi Z, Shao Y, Shi B, Tian Z, Chen J. A numerical study on vibrations of a roller bearing with a surface crack in the races [C]. Proceedings of the ASME 2017 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference IDETC2017, August 6-9, 2017, Cleveland, Ohio, USA.

[1] Liu J*, Shi Z, Shao Y, Shi B. The effect of the support stiffness of rotor on vibrations for a rotor-roller bearing system [C]. Proceeding of the International Conference on Power Transmissions (ICPT 2016), Chongqing, P. R. China, 27-30 October 2016, pp. 213-216.