出生年月：1978.10.20

学历学位：研究生/博士

专业技术职务：教授/博士生导师

邮箱地址：weijing_slmt＠163.com

手机：136-2975-2837

办公地址：重庆大学A区机械传动国家重点实验室318

个人简介：

教育部“国家级重大人才工程入选学者”特聘教授，重庆市“巴渝学者”特聘教授、重庆英才创新领军人才，兼任全国减速机标准化委员会副主任、中国通用机械工业协会减变速机分会专家委主任等职务。面向航空、新能源装备等领域的高速重载传动与系统，开展创新设计、动力学与振动噪声控制、数字孪生与智能化技术等研究。主持JKW 16X某主题重点项目、国家重点研发计划项目(课题)、自然科学基金项目及头部企业委托开发项目40余项。第一/通讯作者在International Journal of Mechanical Sciences、Mechanical Systems and Signal Processing、Nonlinear Dynamics等国际知名期刊发表学术论文140余篇，其中JCR一区35篇、中科院TOP期刊28篇、《机械工程学报》等中文A类期刊15篇；出版专著3部；制/修订国家/行业标准9项；第一完成人获权欧/美/中等国家发明专利32项。第一完成人获省部级科技进步奖一等奖3项、教育部二等奖1项、国家专利优秀奖1项。研究成果应用于军机战略型号XX18C、主力型号XX10、重大型号XX20、出口型号XX8及共轴双旋翼ZSJ、UX2 ZSJ主减等航空传动，专利技术产业化并列装XX20；相关技术推广应用于1.5 MW及以上系列化大兆瓦级风电传动产品研制中，有效推动了我国高性能机械传动系统关键核心技术自主可控。

教育教学：

负责与主讲国家级一流课程《机械设计(线下课程)》、重庆市一流课程《机械原理(来华留学全英语线下课程)》；获批《机械设计》重庆市课程思政教学名师、重庆市高等学校思政示范课程以及课程思政教学团队(排3)；获批重庆市研究生重大教改项目1项(排1)、重庆市本科教改项目1项(排1)以及国家级新工科研究与实践项目(排8)、国家级虚拟仿真实验项目(排8)等其它教改项目9项；获2022年国家级教学成果奖二等奖(排8)、2021年重庆市高校教学成果奖一等奖(排7)。

研究经历:

[1] 2005.03-2008.12重庆大学机械工程专业攻读博士学位

[2] 2007.09-2008.08韩国国立庆尚大学航空工学系联合培养博士研究生

[3] 2017.01-2017.12美国辛辛那提大学高级访问学者

[4] 2009.01-2011.12大连理工大学机械工程学院讲师

[5] 2012.01-2014.11大连理工大学机械工程学院副教授

[6] 2009.05-2012.04太原重工股份有限公司与大连理工大学联培博士后

[7]2014.12至今重庆大学机械工程学院教授

荣誉称号:

[1]教育部“国家级重大人才工程入选学者”特聘教授

[2]重庆市“巴渝学者”特聘教授
[3]首批重庆英才计划创新领军人才

获奖情况:

[1] 2022年第二十四届中国专利奖优秀奖.授奖单位：国家知识产权局制.获奖时间：2023.05.17，第一完成人.

[2]2022年教育部高等学校科学研究优秀成果奖科技进步奖二等奖(编号：2022-553-D01)，授奖单位：中华人民共和国教育部，获奖时间：2022.11.22，第一完成人.

[3] 2021年度中国可再生能源学会科学技术奖一等奖(KXJJ-21-1-04)，授奖单位：中国可再生能源学会，2021.11，第二完成人

[4] 2017年山西省科学技术奖科技进步奖一等奖(2017-J-1-001)，授奖单位：山西省科技厅，获奖时间：2019.01，第一完成人

[5] 2018年中国机械工业科学技术奖科技进步一等奖(R1807005-01)，授奖单位：中国机械工业联合会、中国机械工程学会，2018.10，第一完成人

社会兼职：

2018.11至今全国减速机标准化委员会副主任委员

2017.07至今中通协减变速机分会技术委员会主任委员

2018.10至今中通协减变速机分会标准化委员会副主任委员

2016.07至今中国振动工程学会转子动力学分会常任理事

公开发表论文(近五年):

[1] Jinzong Ye, Jing Wei*, Aiqiang Zhang, Shilin Chen, Tao Ran, Ruizhi Shu. Theoretical and experimental study on the dynamic behavior of spur gear transmission system during hovering maneuver flights[J]. Mechanical Systems and Signal Processing, 2024, 212: 111296.

[2] Zhirou Liu, Haibo Wei*, Jing Wei*, Ziyang Xu. Traveling-wave vibration modelling for thin-walled gear with ring damper[J]. International Journal of Mechanical Sciences, 2024,265: 108910.

[3] Ziyang Xu, Jing Wei *, Haibo Wei *, Zhirou Liu, Xiangqian Chen, Aiqiang Zhang. A novel resonance attractor evaluation method for traveling wave vibration of thin-walled gears: modeling and experiments [J].Journal of Sound and Vibration,2024,569:118081.

[4] Tiantang Duan, Aiqiang Zhang, Jing Wei*, YuLin Peng, Zhike Peng. Effects of crack and structural flexibility on planetary gear system fault feature considering ring gear boundary condition[J]. Engineering Failure Analysis, 2023,149: 107245 .

[5] Ziyang Xu, Jing Wei*, Haibo Wei, Zhirou Liu, Aiqiang Zhang, Yujie Zhang. Special-shape ring dampers for thin-walled gears subjected to traveling wave vibration[J]. International Journal of Mechanical Sciences,2023,258:108578.

[6] Siyu Chen, Aiqiang Zhang, Jing Wei*, Teik C. Lim. Nonlinear excitation and mesh characteristics model for spiral bevel gears[J]. International Journal of Mechanical Sciences, 2023,257:108541.

[7] Rui Niu, Jing Wei*, Yawen Wang , Teik C.Lim. Three-Dimensional Fretting and Sliding Contact Model in Planetary Gear System: Theoretical Analysis and Experiments [J].Mechanism and Machine Theory,2023,186: 105375.

[8] Chunpeng Zhang, Jing Wei*, Hexiang Liu, Xiujie Zhang. Similarity and vibration signal prediction of planetary gear transmission system based on hierarchy analysis[J]. Applied Mathematical Modelling, 2023,123:856-870.

[9]张世界,魏静*,汤宝平,吉科峰.基于变系数滑模控制器的风电机组振动主动控制研究[J].太阳能学报, 2023, 44(5): 407-415.

[10]李良祥,魏静*,张爱强,倪德,钟团结.啮合错位对高速齿轮传动振动响应的影响[J].哈尔滨工程大学学报, 2023, 44(2): 2023,44(2):268-275.

[11] Hua-ming Qian, Jing Wei*, Hong-Zhong Huang. Structural fatigue reliability analysis based on active learning Kriging model[J]. International Journal of Fatigue,2023,172:107639.

[12] Zhirou Liu, Haibo Wei, Jing Wei*, Ziyang Xu, Yonggang Liu.Parametric modelling of vibration response for high-speed gear transmission system[J]. International Journal of Mechanical Sciences, 2023, 249:108273.

[13] Hua-Ming Qian, Jing Wei*, Hong-Zhong Huang, Yan-Feng Li , Aiqiang Zhang. Kriging-based reliability analysis for a multi-output structural system with multiple response Gaussian process [J]. Quality and Reliability Engineering International, 2023,39(5): 1622-1638.

[14]Chunpeng Zhang, Jing Wei*, Rui Niu, Shaoshuai Hou, Shijie Zhang. Similarity and experimental prediction on load sharing performance of planetary gear transmission system[J]. Mechanism and Machine Theory, 2023,180: 105163.

[15]Hao Wu, PingboWu, Junyu Guo, Shilin Zhou and Jing Wei*. Current signal characteristics analysis of transmission system in high-speed train under abnormal vibration conditions[J]. Vehicle System Dynamics, 2023,61(4):1151-1167.

[16] Aiqiang Zhang, Jing Wei*, Miaofei Cao, Bin Peng. Dynamic modeling and accuracy evaluation method for complex irregular components of aviation transmission [C]. International Conference on Gears, FZG, Garching/Munich, Germany, Sep. 12-14, 2022.

[17] Jing Wei* , Miaofei Cao, Aiqiang Zhang, Bing Pen,and Yujie Zhang. Transmission Principles of One Novel High-Order Phasing Gear and Its Influence of Design Parameters on Dynamic Properties[C].International Conference on Mechanism and Machine Science & Engineering(IFToMM CCMMS)2022,China,Yantai,July 30 - August 1, 2022.

[18]张爱强,于广滨,曹苗飞,魏静*.基础运动下行星轮系动应力非惯性系效应研究[J].机械传动, 2022, 46(3): 1-9.

[19]颜强,魏静*,张世界,郭建鹏.大型风机传动链柔性化模型与共振点甄别优化方法[J].振动工程学报, 2022, 35(5):1157-1164.

[20] Qingbing Dong*, Zhuang Chen, Xueyu Bai, Jing Wei*, Kun Zhou. Modeling of Fretting Contact for Layered Materials with Interfacial Cracks[J]. Theoretical and Applied Fracture Mechanics, 2022, 122:103611.

[21] Aiqiang Zhang, Jing Wei*, Hao Cheng, Bin Peng, Miaofei Cao. Dynamic Modeling and Accuracy Evaluation Method for Complex Special‑Shaped Components of Aviation Transmission[J]. International Journal of Precision Engineering and Manufacturing, 2022, 23(11):1337-1348.

[22]魏静*,郭剑鹏,张世界,徐子扬,闫俊慧,吉科峰.大型风机齿轮传动系统机电耦合动态特性研究[J].太阳能学报, 2022, 43(8):300-308.

[23]寻麒儒,魏静*,吴昊,李伟平.曲线通过参数对高速列车牵引齿轮传动系统动力学响应影响研究[J].振动与冲击, 2022,41(13):283-293.

[24]张佳雄，魏静*，张春鹏，侯少帅.高阶调谐齿轮参数设计及动态响应研究[J].振动工程学报, 2022,35(2):369-378.

[25] Chunpeng Zhang, Jing Wei*, Bin Peng, Miaofei Cao, Shaoshuai Hou. Investigation of dynamic similarity of gear transmission system considering machining error distortion: Theoretical analysis and experiments[J]. Mechanism and Machine Theory, 2022,172: 104803.

[26] Tiantang Duan, Jing Wei*, Qiang Yan, Aiqiang Zhang, Zhike Peng, Sheng Li. Detecting the 3D Spatial Varying Crack Evolution-induced Vibration of Gearbox through A System Level Rigid-flexible Coupling Model[J]. Mechanism and Machine Theory, 2022,174: 104892.

[27] Biao Li, Baoping Tang, Lei Deng, Jing Wei. Joint attention feature transfer network for gearbox fault diagnosis with imbalanced data[J]. Mechanical Systems and Signal Processing. 2022, 176:109146.

[28] Jin Huang, Wenjian Chen,Ruizhi Shu, Jing Wei*. Research on the Flow and Transmission Performance of Magnetorheological Fluid between Two Discs[J]. Applied Sciences. 2022, 12, 2252.

[29] Tiantang Duan, Jing Wei *, Qiang Yan, Zhike Peng. Investigations on Crack Propagation and Meshing Characteristics of Planetary Gear Train Considering Crack Closure Effect[J]. Engineering Failure Analysis, 2022,134:106064.

[30]李伟平，魏静*，邬平波，石怀龙.高速列车谐波转矩振动分析及自抗扰控制[J],振动与冲击,2022, 41(1):98-106+120.

[31]Xiangqian Chen, Jing Wei*, Jiaxiong Zhang, Chunpeng Zhang, Chang-lu Wang, Ziyang Xu, Hao Gao, Aiqiang Zhang, Guangbin Yu. A novel Method to Reduce the Fluctuation of Mesh Stiffness by High-order Phasing gear sets: Theoretical Analysis and Experiment [J]. Journal of Sound and Vibration, 2022, 524: 116752.

[32]赵宇豪,魏静*,张世界,徐子扬,郭剑鹏.结构柔性对大型风机齿轮传动系统动态响应的影响分析[J].太阳能学报, 2021,42(12):174-182.

[33]魏静*,姜东,张爱强,周仁弘毅,程浩.时变位姿下行星齿轮传动系统动应力计算模型及其参数影响研究[J],机械工程学报, 2021,57(21):150-159.

[34] Ziyang Xu, Jing Wei*, Haibo Wei, Zhirou Liu, and Xiangqian Chen. Design theory and method of damping rings attached to aviation gears with high speed[C]. International Conference on Damage Assessment of Structures (DAMAS)2021, China, Shanghai, Oct.28-30, 2021. Vol. 2184, Iss. 1, May 16, 2022.

[35] Shijie Zhang, Jing Wei*, Ziyang Xu, Baoping Tang, Rui Niu. Research on the influence of system parameters on the electromechanical dynamics of a large wind turbine drivetrain[J]. Energy reports,2021,7:7835-7851.

[36] Dong, Q., Chen, Z., Wang, C., Zhou, K., & Wei, J. Partial slip contact of materials with vertically aligned cracks near surface[J]. Engineering Fracture Mechanics, 2021,245:107557.

[37] Ziyang Xu, Jing Wei *, Shijie Zhang, Zhirou Liu, Xiangqian Chen, Qiang Yan, Jianpeng Guo. A state-of-the-art review of the vibration and noise of wind turbine drivetrains [J]. Sustainable Energy Technologies and Assessments, 2021,48:101629.

[38] Pingbo Wu, Junyu Guo, Hao Wu, Jing Wei*. Influence of DC-link voltage pulsation of transmission systems on mechanical structure vibration and fatigue in high-speed trains[J]. Engineering Failure Analysis, 2021,130:105772.

[39]赵玲玲,魏静*,张爱强,潘卓.集成式动力总成振动噪声分析与主动控制研究[J].振动工程学报, 2021,34(4):828-837.

[40]魏静*,周仁弘毅,张爱强,姜东.复杂异型机匣高效高精度动力学建模及评价方法[J].航空动力学报, 2021,37(7):1520-1532.

[41]蒋函成,魏静*,张爱强,周仁弘毅.某直升机主减传动系统振动能量传递特性研究[J].振动与冲击, 2021, 40(7):95-104+170.

[42]Chunpeng Zhang, Jing Wei*, Shaoshuai Hou, Jiaxiong Zhang. Scaling law of gear transmission system obtained from dynamic equation and finite element Method[J]. Mechanism and Machine Theory, 2021,159:104285.

[43] Tiantang Duan, Jing Wei*, Aiqiang Zhang, Ziyang Xu, Teik C.Lim. Transmission Error Investigation of Gearbox using Rigid-flexible Coupling Dynamic Model: Theoretical Analysis and Experiments[J]. Mechanism and Machine Theory, 2021,157: 104213.

[44]Ruizhi Shu, Jing Wei *, Rulong Tan, Wu Xiaoyong,FuBenyuan. Investigation of dynamic and synchronization properties of a multi-motor driving system: theoretical analysis and experiment [J]. Mechanical Systems and Signal Processing, 2021, 153: 107496.

[45] Shaoshuai Hou, Jing Wei*, Aiqiang Zhang, Chunpeng Zhang, Ziheng Wu, Junhui Yan, Changlu Wang. A Novel Comprehensive Method for Modeling and Analysis of Mesh Stiffness of Helical Gear [J]. Applied Sciences-Basel, 2020, 10(19):6695.

[46]Shijie Zhang, Jing Wei*, Xi Chen, Yuhao Zhao. China in global wind power development: Role, status and impact[J]. Renewable and Sustainable Energy Reviews, 2020(127):109881.

[47] Chunpeng Zhang, Jing Wei*, Feiming Wang, Shaoshuai Hou, Aiqiang Zhang, Teik C.Lim. Dynamic model and load sharing performance of planetary gear system with journal bearing[J]. Mechanism and Machine Theory, 2020(151):103898.

[48] Jing Wei*, Rui Niu, Qingbing Dong, Shijie Zhang. Fretting-Slipping Fatigue Failure Mode in Planetary Gear System[J]. International Journal of Fatigue, 2020(136):105632.

[49] Qingbing Dong, Yan Li, Jing Wei, Fengxia Lu. Layered Structures with Rough Surfaces and Interfaces at Contact Loading[J]. International Journal of Mechanical Sciences,2020(178):105611.

[50] Qingbing Dong, Jing Wei, Bin Zhao, Yan Li. Contact behaviors of multilayered structures with interfacial cracks[J]. Engineering Fracture Mechanics, Engineering Fracture Mechanics, Engineering Fracture Mechanics,2020, 225(15): 106816.

[51] Jing Wei *, Aiqiang Zhang, Lei Shi, Datong Qin. Modeling and Dynamic Characteristics of Planetary Gear Transmission in Non-inertial System of Aerospace Environment [J]. ASME Journal of Mechanical Design, 2020, 142: 031103.

[52]魏静*,史磊,张爱强,秦大同.飞行环境非惯性系下行星齿轮传动系统耦合动力学建模及其动态特性[J].机械工程学报, 2019, 55(23):162-172.

[53]廖平,魏静*,张爱强,张卫青.一种弧齿锥齿轮时变啮合刚度和传动误差半解析计算方法[J].机械传动, 2019,43(12):56-62.中国机械工程学会优秀论文奖

[54]谭茂林,赵玲玲,魏静.双电机冗余驱动加油开关齿轮减速机构设计[J].机械传动, 2019, 43(8): 163-167+182.

[55]Chang-lu Wang, Jing Wei *, Zi-heng Wu, Long Wu and Hao Gao.Load Sharing Performance of Herringbone Planetary Gear System with Flexible Pin [J]. International Journal of Precision Engineering and Manufacturing, 2019, 20(12):2155-2169.

[56] Aiqiang Zhang, Jing Wei*, Lei Shi, Datong Qin, Teik C.Lim. Modeling and Dynamic Response of Parallel Shaft Gear Transmission in Non-Inertial System[J]. Nonlinear Dynamics,2019,98(2):997-1017.

[57] Jing Wei*, Lei Shi, Aiqiang Zhang, Datong Qin. Modeling and Dynamic Characteristics of Planetary Gear Transmission in Non-inertial System of Aerospace Environment[C], ASME Power Transmission and Gearing Conference, Aug 18-21, 2019, Anaheim, California, USA.

[58] Jing Wei*, Shaoshuai Hou, Aiqiang Zhang, Chunpeng Zhang. An Improved Model for Calculating the Mesh Stiffness of Helical Gear[C], ASME Power Transmission and Gearing Conference, Aug 18-21, 2019, Anaheim, California, USA.

[59] Qingbing Dong*, Jing Wei, Yan Li, Lixin Xu. A Numerical Model to Predict Dynamic Performance of Layered Gears at Starved Lubrication[C], ASME Power Transmission and Gearing Conference, Aug 18-21, 2019, Anaheim, California, USA.

[60] Jing Wei *, Zhuo Pan, Xiaoyan Lin, Aiqiang Zhang, Datong Qin, Lei Shi. Copula-function-based analysis model and dynamic reliability of a gear transmission system considering failure correlations [J]. Fatigue & Fracture of Engineering Materials & Structures, 2019, 42(1):114-128.

[61] Shaoshuai Hou,Jing Wei * , Aiqiang Zhang, Teik C. Lim, Chunpeng Zhang. Study of dynamic model of helical/herringbone planetary gear system with friction excitation [J]. ASME Journal of Computational and Nonlinear Dynamics, 2018,13(12):121007.

[62] Jing Wei*, Gangqiang Wang, Aiqiang Zhang, Datong Qin. A Study of Nonlinear Excitation Modeling of Helical Gears with Modification: Theoretical Analysis and Experiment [C], International Gear Conference, Aug 27-29, 2018, Lyon Villeurbanne, France. Vol. 2: 741-745.

[63] Aiqiang Zhang, Jing Wei*, Datong Qin, Gang Zhong, Zhuo Pan. Study on Vibration Characteristics of Fixed-Axis Gear Transmission in the Non-Inertial System [C], International Gear Conference, Aug 27-29, 2018, Lyon Villeurbanne, France. Vol. 2: 736-740

[64] Changzhao Liu, Datong Qin, Jing Wei, Yinghua Liao. Investigation of nonlinear characteristics of the motor-gear transmission system by trajectory-based stability preserving dimension reduction methodology [J]. Nonlinear Dynamics, 2018.

[65] Wei Sun, Xiang Li, Jing Wei. An approximate solution method of dynamic reliability for wind turbine gear transmission with parameters of uncertain distribution type[J]. International Journal of Precision Engineering and Manufacturing, 2018,19(6): 849-857.

[66] Jing Wei *, Aiqiang Zhang, Gangqiang Wang, Datong Qin, Teik C.Lim, Yawen Wang, Tengjiao Lin. A study of nonlinear excitation modeling of helical gears with modification: theoretical analysis and experiments [J]. Mechanism and Machine Theory, 2018,128: 314-335.

[67] Min Cheng, Junhui Zhang, Bing Xu, Ruqi Ding, Jing Wei. Decoupling compensation for damping improvement of the electrohydraulic control system with multiple actuators [J]. IEEE/ASME Transactions on Mechatronics. 2018,23(3):1383-1392.

[68]魏静*,王刚强,秦大同,张爱强,赖育彬,汝学斌.考虑修形的斜齿轮非线性激励建模与动力学特性研究[J].振动工程学报, 2018, 31(4):561-572.

[69]魏静*,杨攀武,秦大同,张爱强,白培鑫.柔性销轴式人字齿星型轮系均载特性[J].哈尔滨工业大学学报, 2018,50(7):8-17.

[70]魏静*,杨攀武,秦大同,张爱强,白培鑫.重载行星齿轮传动等强度设计理论与方法[J].北京工业大学学报(齿轮传动技术专刊), 2018, 44(7): 979-986.

[71] Ruizhi Shu, Jing Wei *, Datong Qin, Teik C. Lim. Global sensitivity analysis and dynamic optimization of multi-motor driving transmission system [J]. Structural and Multidisciplinary Optimization, 2018,58(2): 797-816.

[72] Ruizhi Shu, Jing Wei*, Datong Qin. Influence of motor fault on synchronization and dynamic characteristics of a multi-motor driving system [J]. Journal of Advanced Mechanical Design Systems and Manufacturing. 2018, 12(1): 17-00330.

[73] Aiqiang Zhang, Jing Wei *, Datong Qin, Shaoshuai Hou, Teik C. Lim. Coupled Dynamic Characteristics of Wind Turbine Gearbox driven by Ring Gear Considering Gravity[J], ASME Journal of Dynamic Systems, Measurement and Control, 2018, 140:091009-1.

[74]魏静*,赖育彬,秦大同,王刚强,林小燕.斜齿轮副啮合刚度计算的解析模型与齿廓修形[J].振动与冲击,2018, 37(10):94-101+116.

[75] WEI Jing *, BAI Pei-xin, QIN Da-tong, Teik C. Lim, YANG Pan-wu, Zhang Hong. Study on vibration characteristics of fan shaft of geared turbofan engine with sudden imbalance caused by blade off [J]. ASME Journal of Vibration and Acoustics, 2018,140(4):041010-1.

[76]魏静*,白培鑫,杨攀武,秦大同,张鸿.叶片丢失对齿轮涡扇发动机风扇轴振动影响的研究[J].振动工程学报, 2018, 31(2):226-237.

[77]舒锐志,魏静*,秦大同,张爱强,赖育彬.多源驱动/传动系统机电耦合建模及同步特性研究[J].机械工程学报, 2018,54(7):63-73.

已授权发明专利:

[1]魏静,梁新龙.一种具有特制阴阳转子型线的双螺杆挤出机,授权公告日: 2014-10-10，中国发明专利：ZL201310004277.7

[2]魏静,孙旭建,孙伟.一种双螺杆捏合机装置,授权公告日: 2012-11-21,中国发明专利：ZL201010581408.4

[3]魏静,高攀,杨玉良.一种变载荷滚动摩擦磨损试验机,授权公告日: 2015-9-8,中国发明专利：ZL201410101336.7

[4]魏静,赵云花.一种五螺杆捏合机齿轮传动装置.授权公告日: 2018-05-08，中国发明专利: ZL201610392263.0.(已转让)

[5]魏静,白培鑫,张鸿.一种齿轮驱动风扇(GTF)发动机齿轮传动装置.授权公告日: 2019-03-15，中国发明专利，ZL201610594040.2.

[6]魏静，白培鑫，张爱强，一种用于模拟齿轮涡扇发动机叶片丢失的实验装置及实验方法.授权公告日: 2019-07-29，中国发明专利，ZL201710813022.3.

[7]魏静,赵冠,杨攀武,曾鹏亚.一种功率分流式***尾斜梁折叠机构电动传动装置,授权公告日: 2019-08-21，GF发明专利，ZL201618006216.9.

[8]魏静,杨攀武,赵冠.一种***尾斜梁折叠机构电动机传动装置，授权公告日: 2019-09-23，GF发明专利，ZL201618006218.8.

[9]魏静,杨攀武,赵冠,曾鹏亚.一种功率分流式***尾斜梁锁销机构电动传动装置,授权公告日: 2020-04-05，GF发明专利，ZL201618006217.3.

[10]魏静，赵冠，杨攀武，袁峰，谭茂林.一种分体式直升机尾斜梁锁销机构电动传动装置及其锁销方式,专利授权公告日：2020-01-17，中国发明专利，ZL 201710568105.0.

[11]魏静,赵玲玲,杨攀武,周毅.一种用于航空的加油开关电动传动装置,专利授权公告日：2020-04-08，中国发明专利，ZL 201810447853.8.

[12]魏静,姜东,张爱强,蒋函成.一种可模拟齿轮传动非惯性系环境的实验系统及方法.专利授权公告日：2020-06-30，中国发明专利，ZL 201910966868.X.

[13]魏静,张家雄,王飞鸣,张春鹏,侯少帅,吴紫恒.一种具有柔性浮动和均载作用的行星架结构.专利授权公告日：2020-12-01，中国发明专利，ZL 201910966945.1.

[14]魏静,赵玲玲.一种用于航空的冷备份加油开关电动传动机构.专利授权公告日：2021-01-26,中国发明专利，ZL 201910129843.4.

[15]魏静,姜东,张爱强. Experimental System and Method Capable of Simulating Non-Inertial System of Gear Transmission.专利申请号：PCT/CN2020/120340.专利号：US 11,428,605 B2.授权日期：2022-08-30.美国发明专利.

[16]魏静,李伟平,蒋函成.一种航空器起落架齿轮传动转向装置.专利授权公告日：2021-12-28，中国发明专利，ZL 201911045947.3

[17] Jing Wei. A Carrier Structure with Flexible Floating and Load Sharing Effects, LU500166, 2021-05-18.卢森堡国际专利

[18]魏静,李思凡,王靖,郭爱贵.一种用于机翼电动翻转折叠的重载大速比旋转机构.专利授权公告日：2022-03-29.中国发明专利. ZL 202110265231.5

[19]魏静,王靖,李思凡,郭爱贵.一种共轴双旋翼直升机上旋翼系统传动机构.中国发明专利.专利授权公告日：2022-05-17.中国发明专利. ZL 202110390808.5

[20]魏静,王靖,李思凡,郭爱贵,韩磊.一种共轴双旋翼直升机主传动系统.中国发明专利.中国发明专利.专利授权公告日：2022-06-03.中国发明专利. ZL 202110510386.0.证书号第5204303号

[21]魏静,程浩,张爱强,颜强,李良祥,陈向前.一种航空传动系统振动限制值的制定方法.中国发明专利.专利授权公告日：2022-12-13.中国发明专利. ZL 202110181260.3.

[22]魏静,程浩,张爱强.一种可实现高回转加速度的齿轮传动实验系统及试验方法.中国发明专利.专利授权公告日：2023-03-31.中国发明专利. ZL 202110390272.7.

[23]魏静,徐子扬,刘指柔,魏海波,陈向前.一种接触压力可控的非圆式C形阻尼环设计方法.中国发明专利.专利授权公告日：2023年4月4日. ZL 202210138627.8.

[24]魏静,王靖,李思凡,韩磊,郭爱贵.一种用于倾转旋翼机机翼的传动机构.中国发明专利.专利授权公告日：2023-05-09. ZL 202110510359.3.

[25]曹俊;鞠国强;刘洪涛;杜伟;孙承跃;邢磊;赵婧;胡增雄,魏静.一种带泄压阀调整装置的仪表座.中国发明专利.专利授权公告日：2023-06-30. ZL 202111309280.0.

[26]曹俊;鞠国强;刘洪涛;孙承跃;杜伟;赵婧;魏静.一种能实现简易安装的高效齿轮泵.中国发明专利.专利授权公告日：2023-06-30. ZL 202210225292.3.

[27]曹俊,鞠国强,王娟,魏静,杜伟,胡增雄,张明明,宋健康,李寿东,张殿忠,朱延清,黄永倩,赵婧,曹丽瑜.一种高速齿轮箱的高精度箱体结构.中国发明专利.专利授权公告日：2023-01-10. ZL 202211288747.2.