姓名：董庆兵

出生年月：1985.07 

学历学位：博士研究生/博士 

专业技术职务：教授

博士毕业于新加坡南洋理工大学(Nanyang Technological University, Singapore)，重庆大学机械与运载工程学院“百人计划”研究员，重庆大学高端装备机械传动全国重点实验室教授，博士生导师，中国机械工程学会高级会员，主要从事机械传动、界面接触、疲劳断裂等领域的研究，参与开发了传动件表面/界面滑动、滚动、微动、润滑等不同接触条件下的力场仿真平台，可实现多物理场耦合作用表层剥离、损伤累积等机理分析，以及微尺度下接触疲劳、断裂等失效行为预测，为传动系统可靠性设计制造提供了系统的理论，发表SCI/EI期刊论文40余篇。主持国家重点研发计划课题、国家科学基金青年/面上项目、重庆市技术创新与应用示范项目课题等项目10余项，先后在Int. J. Mech. Sci.、Eng. Fract. Mech.、机械工程学报等国内外高水平期刊发表论文40余篇，领域内10余个国际期刊审稿人，数次被邀请国际会议分会主席，参与了国家重点研发计划、自然科学基金、工信部项目等；获机械工业科学技术奖二等奖2项(排名2/排名8)、高等学校科学研究优秀成果奖(科学技术)二等奖1项(排名11)；国家留学基金委2023年度国家公派高级研究学者。

多次推送本/硕/博生至国外学习深造，包括KTH Royal Institute of Technology、Nanyang Techonological University 等国际知名大学，鼓励学生参加国内外学术会议，欢迎大家报考！

(1) 发表的论文情况：

[1] Qingbing Dong*, Xingsheng Zhou, Zhuang Chen, Zurong Wu, and Qing Luo. A numerical investigation of slip evolution of shear crack faces oriented arbitrarily under non-steady contact. Mech Mater, 2024: 104936.

[2]  Zhuang Chen, Qingbing Dong*, Xueyu Bai, and Kun Zhou. A dislocation-based model for shear cracks in arbitrary orientations under contact loading. Eng Fract Mech, 2023: 109384.

[3]     Fude Wei, Qingbing Dong, Huanhuan Wang and Shuncheng Yang*. The Non-Linear Excitation Load-Sharing Method of a High-Powered Nuclear Planetary Gear Train. Processes, 2023, 11(7), 2190.

[4] 李宏天, 冯成程, 董庆兵*, 魏静, 何东. 核电循环泵齿轮箱强制喷射润滑仿真研究. 机械传动, 2023, 46(10): 1-9.

[5] 陈壮, 董庆兵*, 罗振涛, 魏静, 孟凡明,戚勍. 花键微动磨损和损伤累积的耦合机制及寿命预测. 机械工程学报, 2023, 59(3): 133-143.

[6] 张安康，董庆兵*，陈壮，李金超，何东. 基于大型轧机调心滚子轴承等效简化模型的过盈及接触分析. 机械强度, 2023, 44(5): 1170-1178.

[7] 董庆兵*, 汪汉明, 冯成程, 魏静, 何东, 杨海师. 核电循环泵行星齿轮热弹流润滑研究. 润滑与密封, 已接收.

[8] 罗庆，董庆兵*，赵滨，魏静，杨海师. 分片式可变间隙径向滑动轴承混合润滑研究. 摩擦学学报, 已接收.

[9] 董庆兵*, 陈壮, 罗振涛, 张杰, 魏 静. 三维线接触微动界面疲劳寿命预测及断裂行为研究. 机械工程学报, 已接收.

[10] 汪汉明, 董庆兵*, 陈壮, 赵波, 史修江. 行星轮系竞争失效的寿命预测及试验研究. 机械工程学报, 已接收.

[11]  Xueyu Bai, Qingbing Dong, Han Zheng, and Kun Zhou*. Plasto-elastohydrodynamic lubrication of heterogeneous materials in impact motion. Int J Mech Sci, 2022, 236:  107762.

[12]  Qingbing Dong*, Zhuang Chen, Xueyu Bai, Jing Wei, and Kun Zhou. A model for fretting contact of layered materials with interfacial cracks. Theor Appl Fract, 2022, 122:  103611.

[13]  Xueyu Bai, Qingbing Dong, Han Zheng, and Kun Zhou*. Modelling of non-Newtonian starved thermal-elastohydrodynamic lubrication of heterogeneous materials in impact motion. Acta Mechanica Solida Sinica. 2021,34:954-976.

[14]  Xueyu Bai, Qingbing Dong, Han Zheng, and Kun Zhou*. A Finite Element Model for Non-Newtonian Starved Thermal-Elastohydrodynamic Lubrication of 3D Line Contact. International Journal of Applied Mechanics. 2021,13:2150107.

[15]  Dong He, Qingbing Dong*, and Guman Zhao. Modeling mixed lubrication in point and line contact by non-normalized discretization. International Journal of Applied Mechanics. 2021;13:2150080.

[16]  Qingbing Dong*, Zhuang Chen, Kun Zhou, and Dong He. Fretting contact of layered materials with vertical cracks near surfaces. International Journal of Mechanical Sciences. 2021,198:106361.

[17]  Qingbing Dong*, Zhuang Chen, Chen Wang, Kun Zhou, and Jing Wei. Partial slip contact of materials with vertically aligned cracks near surface. Engineering Fracture Mechanics. 2021,245:107557.

[18]  Wangang Zhu, and Qingbing Dong*. Effective elastic properties of cracked composites with periodically distributed particulates. Mechanics of Advanced Materials and Structures. 2020:1-11.

[19]  Qingbing Dong*, Yan Li, Jing Wei, and Fengxia Lu. Layered structures with rough surfaces and interfaces at contact loading. International Journal of Mechanical Sciences. 2020,178:105611.

[20]  Jing Wei*, Rui Niu, Qingbing Dong, and Shijie Zhang. Fretting-slipping fatigue failure mode in planetary gear system. International Journal of Fatigue. 2020,136:105632.

[21]  Qingbing Dong*, Jing Wei, Bin Zhao, and Yan Li. Contact behaviors of multilayered structures with interfacial cracks. Engineering Fracture Mechanics. 2020,225:106816.

[22]  李炎, 董庆兵*, 罗振涛, 何东. 考虑表面形貌的接触应力分析. 表面技术, 2021,12:294-302.

[23]  冯成程, 董庆兵*, 魏静, 朱万刚. 高速动车组齿轮箱内部流场仿真分析及搅油损失计算. 润滑与密封,2022,47:101-110.

[24]  Qingbing Dong*, Zhanjiang Wang, Dong Zhu, Fanming Meng, Lixin Xu, and Kun Zhou. A model of mixed lubrication based on non-normalized discretization and its application for multilayered materials. Journal of Tribology. 2019,141:042101.

[25]  Qingbing Dong*, Jing Wei, Yan Li, and Lixin Xu. A Numerical Model to Predict Dynamic Performance of Layered Gears at Starved Lubrication. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, vol. 59308, p. V010T11A039. American Society of Mechanical Engineers, 2019. (会议论文)

[26]  Xiqun Lu, Qingbing Dong*, Kun Zhou, Bin Zhao, and Bo Zhao. Numerical analysis of transient elastohydrodynamic lubrication during startup and shutdown processes. Journal of Tribology.2018,140:041504.

[27]  Qingbing Dong, and Kun Zhou*. Numerical modeling of elastohydrodynamic lubrication in point or line contact for heterogeneous elasto-plastic materials. Mechanics of Advanced Materials and Structures. 2017,24:1300-1308.

[28]  Qingbing Dong, and Kun Zhou*, W. Wayne Chen, and Qin Fan. Partial slip contact modeling of heterogeneous elasto-plastic materials. International Journal of Mechanical Sciences. 2016,114:98-110.

[29]  Qingbing Dong, Jing Yang, Xu Wang, Leon M Keer, and Kun Zhou*. Heterogeneous structures with inhomogeneous inclusions under elastohydrodynamic lubrication contact with consideration of surface roughness. Proceedings of the institution of mechanical engineers, Part J: journal of engineering tribology. 2016,230:571-582.

[30]  Kun Zhou*, Qingbing Dong. A three-dimensional model of line-contact elastohydrodynamic lubrication for heterogeneous materials with inclusions. International Journal of Applied Mechanics. 2016,8:1650014.

[31]  Qingbing Dong, and Kun Zhou*. Modeling heterogeneous materials with multiple inclusions under mixed lubrication contact. International Journal of Mechanical Sciences. 2015,103:89-96.

[32]  Qingbing Dong, Kun Zhou*, Rongbing Wei, Jun Luo, and Narasimalu Srikanth. Analysis of fluid pressure, interface stresses and stress intensity factors for layered materials with cracks and inhomogeneities under elastohydrodynamic lubrication contact. International Journal of Mechanical Sciences. 2015,93:48-58.

[33]  Qingbing Dong, and Kun Zhou*. Multiple inhomogeneous inclusions and cracks in a half space under elastohydrodynamic lubrication contact. International Journal of Applied Mechanics. 2015,7:1550003.

[34]  Qingbing Dong, and Kun Zhou*. Elastohydrodynamic lubrication modeling for materials with multiple cracks. Acta Mechanica. 2014,225:3395-3408.

[35]  Qingbing Dong, and Kun Zhou*. Modeling cracks and inclusions near surface under EHL conditions. In The 5th International Conference on Computational Methods (ICCM2014). 2014. (会议论文)

[36]  Xiaoxi Ding, Lun Lin, Dong He, Liming Wang, Wenbin Huang, and Yimin Shao*. A weight multinet architecture for bearing fault classification under complex speed conditions. IEEE Trans Instrum Meas. 2020,70: 1-11.

[37]  Rui Wang, Xiaoxi Ding*, Dong He, Quangchang Li, Xin Li, Jian Tang, and Wenbin Huang. Shift-invariant sparse filtering for bearing weak fault signal denoising.  IEEE Sens J. 2023,23(21):26096-26106.

[38]  Jian Tang, Guanhui Zheng, Dong He, Xiaoxi Ding, Wenbin Huang, Yimin Shao, and Liming Wang*. Rolling bearing remaining useful life prediction via weight tracking relevance vector machine. Meas Sci Technol. 2020,32(2):024006.

    (2) 专利情况：

[1]     董庆兵; 熊广; ABAQUS二次开发的金属构件弹塑性损伤疲劳寿命仿真方法, 2023-11-10, 中国，2023115020399.

[2]     董庆兵; 陈壮; 基于MATLAB 和ABAQUS 的斜齿轮有限元网格生成方法, 2023-11-30, 中国，2023116233922.

[3]     董庆兵; 汪汉明; 陈壮;一种基于ABAQUS二次开发的齿轮疲劳寿命仿真方法, 2023-12-13, 中国，2023117113148.

[4]     何东; 董庆兵; 周兴盛; 焦启飞; 一种磁性齿轮转子及其结构成型方法, 2022-5-12 中国, 202210517176.9.

[5]     董庆兵; 汪汉明; 何东; 陈壮; 一种基于ABAQUS二次开发的花键磨损与疲劳寿命仿真方法, 2021-12-28 中国, 202111621879.8.

        [6]     罗振涛; 董庆兵; 李炎; 自动添加油脂的润滑装置, 2020-12-15, 中国，ZL 2020 2 0564681.5.

(3) 形成的软件著作权如下：

[1]     基于ABAQUS二次开发的花键磨损与疲劳寿命预测软件 V1.0, 2021SR2156080.

[2]     基于热弹流润滑分析的斜齿轮优化设计软件 V1.0, 2022SR0506330.

[3]     齿轮疲劳点蚀寿命预测计算软件V1.0, 2023SR0135590.

[4]     基于ABAQUS和MATLAB的齿轮疲劳寿命计算软件 V1.0, 2024SR0018357.

[5]     基于接触线运动轨迹的斜齿轮有限元网格生成软件 V1.0, 2023SR1730949.

[6]     金属构件弹塑性损伤疲劳寿命计算软件 V1.0, 20SR1618183.

    (4) 获奖励情况

[1]     超大型炼钢转炉倾动装置关键技术研究及应用，中国机械工业科学技术奖二等奖(证书编号：R2204019-02)，授奖单位：中国机械工业联合会、中国机械工程学会，2022.12.25，第二获奖人.

[2]     高可靠长寿命滚道行星轮关键制造技术研究与应用，中国机械工业科学技术奖二等奖(证书编号：R2306060-08)，授奖单位：中国机械工业联合会、中国机械工程学会，2023.10.13，第八获奖人.

[3]     高端重载行星齿轮传动系统长寿命设计制造技术研究与应用，高等学校科学研究优秀成果奖(科学技术)二等奖(证书编号：2022-553-R011)，授奖单位：中华人民共和国教育部，2023.6.6，第十一获奖人.

(5) 会议报告

1.    A Numerical Model to Predict Dynamic Performance of Layered Gears at Starved Lubrication. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, American Society of Mechanical Engineers (IDETC-CIE), 2019.

2.    Fretting Wear and Fatigue Modeling of Spline Couplings and Experiment Study. In International Forum on Marine Tribology (IFMT), 2021.

3.    花键轴的微动磨损-疲劳竞争失效和修形研究, 第九届材料与结构强度青年工作论坛暨中国机械工程学会材料分会青年工作年会, 2022.

4.    基于裂纹萌生临界平面的行星轮系失效竞争疲劳寿命预测研究, 第十五届全国摩擦学大会暨全国青年摩擦学学术会议, 2023.

5.    Life Prediction of Planetary Gearbox Based on Competing Failure Mechanisms and Experimental Study. In International Conference on Surface Science Technology and Application (ICSSTA), 2023.