教师主页移动版

个人经历 Personal experience 工作经历 教育经历 2014. 7～2016. 9 重庆大学 机械工程学院 讲师2015. 1～2020.4   机械传动国家重点实验室 固定研究人员2016. 9～2020.4   重庆大学 机械工程学院 副教授/硕士研究生导师2018. 9～2020.4   重庆大学 机械工程学院 博士研究生导师2020.4～至今  西北工业大学 航海学院 教授/博导 2003. 9～2007. 6  重庆大学 机械工程学院 车辆工程专业 获学士学位       2007. 9～2009. 3  重庆大学 机械工程学院 车辆工程专业 硕博连读2009. 3～2014. 6  重庆大学 机械工程学院 机械工程专业 获博士学位2012. 9～2013. 9  美国马里兰大学巴尔的摩郡分校（UMBC） 机械工程专业 研究助理

教育教学

教育教学 Education and teaching 教育教学 招生信息 主讲《机械创新设计》(本科生)、《高速转子动力学与数值仿真学科前沿讲座》（博士生）等课程 主要研究方向低噪声水下航行器结构设计、水下航行器振动噪声控制、机械系统减隔振理论方法及控制技术、机械结构与系统建模、机械装备系统的振动与噪声及其控制技术、水下航行器浮力调节系统设计、机械传动系统故障诊断方法等联系方式邮箱：jliu0922@nwpu.edu.cn和jliu@cqu.edu.cn电话：13658335960招收的博士/硕士研究生成员在校学习期间享受的待遇如下：1. 提供校内有竞争力的丰厚生活补贴（论文、专利等成果单独奖励）；2. 报销参加项目和研究领域相关的会议差旅费用（可报销最少1次找工作期间的差旅费）；3. 提供耐心的科学研究指导（学生的独立成果，学生为第一作者身份发表并提供修改；若在老师指导下发表论文按贡献署名）;4. 提供国际合作交流机会（博士生必须要求进行海外交流并参加国际高水平会议；硕士生提供参加国际或者国内会议交流的机会）。

荣誉获奖

荣誉获奖 Awards Information 2022年入选国家级青年人才2023年入选爱思唯尔2022中国高被引学者（2022 Most Cited Chinese Researchers）2021年入选陕西省高层次人才计划青年项目2022年入选西北工业大学翱翔青年学者2021年入选西北工业大学翱翔新星人才计划2022年陕西省机械工程学会二等奖2021年克罗斯利杰出论文奖2020年重庆市自然科学奖一等奖2020年西北工业大学教师教学创新竞赛一等奖2020年西北工业大学航海学院教师教学创新竞赛一等奖2019年重庆大学第七届“最受学生欢迎的老师”2018年国家级教学成果二等奖2018年重庆大学优秀青年教师2017年机械基础课程全国观摩讲课比赛二等奖2015年重庆大学优秀博士论文2015年重庆市优秀博士论文2015年重庆大学第五届青年教师教学基本功比赛一等奖指导学生获奖指导获国家奖学金研究生4人次第十一届iCAN国际创新创业大赛重庆赛区一等奖1项第十一届iCAN国际创新创业大赛全国总决赛一等奖1项（排名所在组第一）和现场最佳人气奖第十一届全国大学生节能减排社会实践与科技竞赛一等奖和金奖（全国仅2项）重庆大学第七届机创大赛三等奖2项重庆大学第七届校级SRTP项目优秀项目1项2018年“创青春”重庆市大学生创业大赛金奖重庆大学第四届“互联网+”大学生创新创业大赛银奖重庆大学第七届“树声前锋杯”创新创业大赛金奖第十六届“挑战杯”全国大学生课外学术科技作品竞赛重庆大学一等奖     2021年全国大学生OceanTech竞赛—创新挑战赛一等奖

科学研究

科学研究 Scientific Research 一直从事机械系统动力学与减振降噪技术方面的研究工作，在机械结构与系统建模、机械动力学机理与特性、机械振动噪声控制等方面具有深厚的研究基础。在《Mechanical Systems and Signal Processing》、《Journal of Sound and Vibration》、《Mechanism and Machine Theory》、《Nonlinear Dynamics》、《Journal of Tribology》、《Journal of Vibration and Control》、《Engineering Failure Analysis》、《Journal of Multi-body Dynamics》、《机械工程学报》等国内外著名刊物和ASME、DAMAS等重要国际会议上发表相关论文100余篇。其中，以第一或通讯作者发表SCI期刊论文76篇，EI期刊论文11篇，国际会议10余篇；以第一作者身份发表ESI 1%高被引论文5篇，ESI 1‰热点论文3篇，SCI期刊封面论文1篇，优秀会议论文1篇。出版学术专著1部，教材2部。申请国家发明专利10项、已授权5项；申请软件著作权2项、已授权2项。作为项目负责人主持科研项目16项，包括：国家自然科学基金面上项目2项、国家自然科学基金青年基金1项、基础创新产品项目2项、重庆市前沿与应用基础研究项目1项、重庆市教委科学技术研究项目1项、牵引动力国家重点实验室开放课题1项、中央高校业务基金费项目4项、企业横向科研项目10余项。  作为项目骨干参与多项国家级省部级科研项目的研究，包括：国家自然科学基金重点基金1项、美国国家自然基金项目1项、预研项目2项、企业横向课题20余项等。主持的主要科研项目9. ×××壳体振动噪声抑制方法，国家级项目，100万，2022.10-2024.10（主持）8. 基于振动×××结构设计，国家级项目，300万，2021.11-2022.12.（主持）7. ×××激励特性与抑制方法研究，国家级项目，345万，2018.1-2020.12.（主持）6. ×××机构动态设计方法研究，国家级项目，101万，2021.1-2023.12.（主持）5. 高速柔性转子制造误差的动态行为演变机理与动力学建模方法研究，国家自然科学基金面上项目，62万，2020.1-2023.12.（主持）4. 行星滚针轴承保持架冲击碰撞力演变机理与动力学建模方法研究，国家自然科学基金面上项目，58万，2022.1-2025.12.（主持）3. 滚动轴承早期裂纹萌生及故障演化与动力学建模研究，国家自然科学基金青年基金项目，22万，2017.1-2019.12.（主持）2. 滚动轴承元件表面磨损行为演变机理与摩擦动力学建模方法研究，国家自然科学基金中英国际合作交流项目，10万，2022.4-2024.3.（主持）1. ×××轴承制造误差激励下的传动装置振动仿仿真技术研究，126.3万，2020.9-2022.6.（主持）

学术成果

学术成果 Academic Achievements 期刊论文[76] Liu J*, Lei Xue, Hengtai Ni, Wen Song. Vibration simulation of the turbine rotor system of an underwater vehicle considering the bearing radial clearance [J]. International Journal of Acoustics and Vibration, 2022. (SCI)  (Accepted)[75] Liu J*, Yajun Xu, Yan Cheng, Jin Xu. An optimization analysis of external profile modification of outer raceway of a track needle roller bearing [J]. International Journal of Surface Science and Engineering. (SCI) (Accepted)[74] Liu J*, Yajun Xu, Yuchen An, Lixin Xu. Dynamic simulation of a ball bearing including the combined imperfections and velocity fluctuations of rolling elements [J]. Mechanics Based Design of Structures and Machines, https://doi.org/10.1080/15397734.2022.2116341. (SCI) [73] Liu J*, Xiaoyong Dang, Chenyu An, Chiye Yang. A fatigue failure analysis and optimization of a high-speed cylindrical roller bearing used in a turbofan engine [J]. Journal of Materials: Design and Applications, 2022. (SCI)  (Accepted)[72] Y J Liu, Liu J*, G Pan, L M Guo, Q G Huang. A design method for vibration and acoustic reduction of the power system in an underwater automobile glider [J]. International Journal of Acoustics and Vibration. 2022, 27(3): 233-244. (SCI)[71] Y J Liu, Liu J*, G Pan, Q G Huang, L M Guo. Vibration analysis and isolator component design of the power system in an autonomous underwater glider [J]. International Journal of Acoustics and Vibration, 2022, 27(2): 112-121. (SCI)[70] Liu J*, Z D Xu. An analysis of the load distribution characteristics of a cylindrical roller bearing including the component deformation and waviness [J]. Journal of Tribology. (SCI) (Accepted)[69] Liu J*, Z D Xu. An optimization design method of a cylindrical roller bearing with the low friction torque [J]. Journal of Tribology, 2022, 144(11): 111201. (SCI)[68] Z F Shi, Liu J*. Dynamics of a lubricated planetary needle roller bearing considering the waviness [J]. Journal of Multi-body Dynamics, 2022, 236(2): 308 - 321. (SCI)[67] Liu J*, Linfeng Wang. Dynamic modelling of the defect extension and appearance in a cylindrical roller bearing [J]. Mechanical Systems and Signal Processing, 2022, 173: 109040. (SCI)[66] Liu J*, C Y An, G Pang. A new model of a rigid rotor system with the sinusoidal waviness based on the non-Hertzian solution [J]. Journal of Multi-body Dynamics, 2022, 236(1): 151-167. (SCI)[65] Liu J*, Xu Z. A simulation investigation of lubricating characteristics for a cylindrical roller bearing of a high-power gearbox[J]. Tribology International, 2022, 167: 107373. (SCI)[64] Liu J*, L F Wang. Dynamic modelling of combination imperfects of a cylindrical roller bearing [J]. Engineering Failure Analysis, 2022, 135: 106102. (SCI)[63] Chenyu An, Liu J*. A numerical analysis of the dynamic loads of the connecting bolts in a universal joint [J]. Eksploatacja i Niezawodnosc–Maintenance and Reliability, 2022, 24 (2): 211–225. (SCI)[62] Y J Liu, Liu J*, G Pan, Q G Huang, L M Guo. Dynamic analysis of an autonomous underwater glider with single- and two-stage vibration isolators [J]. Journal of Marine Science and Engineering, 2022, 10(2): 162. (SCI)[61] Shi Zhifeng, Liu J *, Li Hongwu, Zhang Qiang, Xiao Guajian. Dynamic simulation of a planet roller bearing considering the cage bridge crack [J]. Engineering Failure Analysis, 2022, 131: 105849. (SCI)[60] Liu J*, Changke Tang. A method for predicting the influences of bearing support stiffness and position on the vibrations of a flexible rotor system [J]. International Journal of Acoustics and Vibration, 2021, 26(4): 287-295. (SCI) [59] 刘静*, 党晓勇, 唐昌柯, 李鑫斌, 庞瑞琨. 航空发动机传动轴承多支承台架试验失效机理分析. 机械工程学报, 2021, 57(23): 116-123. (EI) [58] Liu J*, Shizhao Ding, Ruikun Pang, Xinbin Li. Influence of the roller profile modification of planet bearing on the vibrations of a planetary gear system [J]. Measurement, 2021, 180: 109612. (SCI)[57] Liu J*, Lei Xue, Zidan Xu, Hao Wu, Guang Pan. Vibration characteristics of a high-speed flexible angular contact ball bearing with the manufacturing xxx[J]. Mechanism and Machine Theory. 2021, 162: 104335. (SCI)[56] Liu J*, Y J Xu, G Pan. An acoustic-vibration dynamical modelling method of a defective ball bearing [J]. Journal of Sound and Vibration, 2021, 501: 116029. (SCI) (ESI 0.1%热点论文和1%高被引论文)[55] Liu J*, H D Ni, Z D Xu, G Pan. A simulation analysis for lubricating characteristics of an oil-jet lubricated ball bearing [J]. Simulation Modelling Practice and Theory, 2021, 113: 102371. (SCI)[54] Liu J*, C K Tang, G Pan. Dynamic modelling and simulation of a flexible-rotor ball bearing system [J]. Journal of Vibration and Control, https://doi.org/10.1177/10775463211034347. (SCI) (Accepted)[53] Liu J*, Pang R, Li H, et al. Influence of support stiffness on vibrations of a planet gear system considering ring with flexible support [J]. Journal of Central South University, 2020, 27(8): 2280-2290. (SCI)[52] Liu J*. A stiffness optimization method for a shaft-bearing-pedestal system based on the dynamics [J]. Journal of Multi-body Dynamics, 2021, 235(2): 235-245. (SCI)[51] Liu J*, L. Yuan. Vibration analysis of a flexible gearbox system considering a local fault in the outer ring of the supported ball bearing [J]. Journal of Vibration and Control, 2021, 27(9-10): 1063-1076. (SCI)[50] Liu J*, Xu Z D, Zhang L X, Xiao J M, Tang T. A lubricant flow distribution characteristic analysis of a wind power gearbox [J]. Tribology International, 2021, 154: 106684. (SCI)[49] Liu J*, S K Du. Dynamic analysis of a high-speed railway train with the defective axle bearing [J]. International Journal of Acoustics and Vibration, 2020, 25(4): 525-531. (SCI)[48] Z F Shi, Liu J*. An improved dynamic model for vibration analysis of a cylindrical roller bearing [J]. Mechanism and Machine Theory, 2020, 153: 103994. (SCI)[47] Liu J*, X B Li, S Z Ding, R K Pang. A time-varying friction moment calculation method of an angular contact ball bearing with the waviness [J]. Mechanism and Machine Theory, 2020, 148: 103799. (SCI, JCR一区)[46] Z F Shi, Liu J*. A numerical study of the contact and vibration characteristics of a roller bearing with a surface crack [J]. Journal of Materials: Design and Applications, 2020, 234(4): 549-563. (SCI)[45] Liu J*, S Z Ding, L F Wang, H W Li, J Xu. Effect of the bearing clearance on vibrations of a double row planetary gear system [J]. Journal of Multi-body Dynamics, 2020, 234(2): 347-357. (SCI)[44] Liu J*, R K Pang, Y J Xu, X B Li, S Z Ding, Q B He. Vibration analysis of a single row angular contact ball bearing with the coupling including the surface roundness and waviness [J]. SCIENCE CHINA Technological Sciences, 2020, 63(6): 943-952. (SCI)[43] Liu J*, C K Tang, H Wu, Z D Xu, L F Wang, Y M Shao. An analytical calculation method of the load distribution and stiffness of a preloaded angular contact ball bearing [J]. Mechanism and Machine Theory, 2019, 142: 103597. (SCI, JCR一区)[42] Liu J*, L F Wang, Y J Xu, X H Liang, Y M Shao. An analytical method for dynamic analysis of a ball bearing with offset and bias local defects [J]. Journal of Sound and Vibration, 2019, 461: 114919. (SCI, JCR一区)[41] Liu J*, C K Tang, Y M Shao. An innovative dynamic model for vibration analysis of a flexible roller bearing [J]. Mechanism and Machine Theory, 2019, 135: 27-39. (SCI, JCR一区)[40] Liu J*, X B Li. Vibration analysis of the axle bearings considering the combined for a high-speed train [J]. Journal of Multi-body Dynamics, DOI: 10.1177/1464419320917235. (SCI) [39] Liu J*, Ya J X, Wang L F, Xu Z D, Tang C K. Influence of the local defect distribution on vibration characteristics of ball bearings [J]. Eksploatacja i niezawodnosc–Maintenance and Reliability, 2019; 21 (3): 485–492. (SCI) (期刊封面文章)[38] Liu J*, Z D Xu, Li Zhou, W. Yu, Y M Shao. A statistical feature investigation of the spalling propagation assessment for a ball bearing [J]. Mechanism and Machine Theory, 2019, 131: 336-350. (SCI, JCR一区) (ESI 1%高被引论文)[37] Liu J*, L F Wang, J L Ma, Y M Shao, H W Li. A multi-body dynamic study of vibrations of a planetary gear train with the planetary bearing fault [J]. Journal of Multi-body Dynamics, 2019, 233(3): 677-695. (SCI)[36] 刘静*, 唐昌柯, 师志峰, 等. 局部剥落故障对滚动轴承接触与振动特性的影响研究 [J]. 中南大学学报(自然科学版), 2019, 50(10): 2417-2424. (EI)[35] 刘静*, 徐子旦, 唐昌柯, 王林峰. 轴承-轴承座系统振动特征与局部故障尺寸的关联关系研究 [J]. 振动、测试与诊断, 2019, 39(4): 860-866. (EI)[34] Liu J*, C K Tang, Y M Shao. A dynamic investigation of a rotor-roller bearing-housing system with a localized fault including additional excitation zone [J]. Journal of Sound and Vibration, 2020, 469: 115144. (SCI, JCR一区)[33] Liu J*, Wang L F, Shi Z F, Yu W N, Xiao H F, Shao Y M. A comparison study of the contact models for contact and vibration characteristics of cylindrical roller bearings [J]. Engineering Computations, 2019, 36(5): 1656-1675. (SCI)[32] 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)[31] 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, 2019, 233(7): 1352-1362. (SCI)[30] Liu J*, Shao Y. An analytical dynamic model of a hollow cylindrical roller bearing [J]. ASME Journal of Tribology, 2018, 140(6): 061403. (SCI)[29] Liu J*, Yan Z L, Shao Y. An investigation for the friction torque of a needle roller bearing with the roundness [J]. Mechanism and Machine Theory, 2018, 121: 259-272. (SCI, JCR一区)[28] 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)[27] Liu J*, Xu Y J, Shao Y. Dynamic modelling of a rotor-bearing-housing system including a localized fault [J]. Journal of Multi-body Dynamics, 2018, 232(3): 385–397. (SCI)[26] Liu J*, Shao Y. Overview of dynamic modelling and analysis of rolling element bearings with localized and distributed faults [J]. Nonlinear Dynamics, 2018, 93(4): 1765–1798. (SCI, JCR一区)[25] 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)[24] 刘静, 等. 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)[23] 刘静*, 等. 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)[22] Liu J*, Wu H, Shao Y. A comparative study of surface waviness models for predicting vibrations of a ball bearing [J]. SCIENCE CHINA Technological Sciences, 2017, 60(12): 1841-1852. (SCI)[21] 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, 2018, 24(17): 3894-3907. (SCI) (ESI 0.1%热点论文和1%高被引论文)[20] 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, 2019, 233(5): 850–861. (SCI)[19] 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)[18] 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, JCR一区)[17] 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)[16] 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)[15] 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)[14] 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, JCR一区) (ESI 1%高被引论文)[13] 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)[12] 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, JCR一区)[11] 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)[10] 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)[9] 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)[8] 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, JCR一区)[7] 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)[6] 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)[5] 刘静, 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)[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, JCR一区)[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[4] 刘静, 侯宇, 苏婷慧, 等. 基于模块化设计的特种车辆减振降噪技术研究 [J]. 北京理工大学学报, 2018, 38(S1): 1-7. (EI) (优秀会议论文)[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.发明专利[1] 刘静, 等. 一种轴承振动在线检测系统用试件装卸装置, 申请号: CN201811306767.1, 申请日: 2018.11.05（实质审查的生效）[2] 刘静, 等. 一种轴承振动在线检测及分拣系统, 申请号: CN201811309736.1, 申请日: 2018.11.05（实质审查的生效）[3] 刘静, 等. 一种滚动轴承套圈固有频率计算方法, 申请号: CN201610969618.8, 申请日: 2016.11.01（已授权）[4] 刘静, 等. 柔性载人月球车车轮, 申请号: CN201610503695.4, 申请日: 2016.07.01（已授权）[5] 刘静, 等. 一种球轴承滚动体建模方法、系统及存储介质, 申请号: ZL2021105 16144.2, 申请日: 2021-05-12（已授权）[6] 刘静, 等. 用于行星齿轮的轴承滚动体与保持架的碰撞测试装置, 申请号: ZL2021107 40277.8, 申请日: 2021-07-01（已授权）[7] 刘静, 等. 一种滚针轴承保持架冲击碰撞测试系统, 申请号: ZL20211073 1147.8, 申请日: 2021-06-30（已授权）软件著作权[1] 刘静, 王林峰, 吴昊. 滚动轴承质量智能检测系统, 登记号: 2019SR0639131（已授权）[2] 刘静, 等. 高速刚性转子动力学分析软件V1.0, 登记号:2021SR1051568（已授权）

综合介绍

社会兼职 Social Appointments 国家自然科学基金通讯评审专家中国振动工程学会转子动力学专业委员会理事中国振动工程学会故障诊断专业委员会理事美国机械工程学会（ASME）会员中国振动工程学会会员ASME IDETC 2018 VIB 分会共同主席ASME IDETC 2019 VIB分会组织者      2021年以色列国家自然科学基金通讯评审专家  2021年第六届维护工程国际会议（IncoME-VI）分会场主席      国外SCI期刊《Energies》编委  国内SCI期刊《Journal of Central South University》、国内EI期刊《中南大学学报（自然科学版）》和《交通运输工程学报》青年编委  国外SCI期刊《Energies》专刊“Intelligent Designing, Measuring and Control for Frontier Instrument and Equipment”、《Crystals》专刊“Recent Research on Engineering Acoustic Metamaterials”、《Shock and Vibration》专刊“Advanced Condition Monitoring Methods of Mechanical Systems for Industry Applications”、《Sensors》专刊“Advanced Vibration-Based Fault Diagnosis and Vibration Control Methods”、《Machines》专刊“Advanced Dynamic Analysis and Vibro-Acoustic Control Methods”客座主编