姓名:王静
性别:女
职称:教授/博士生导师
最高学位:工学博士
个人简介:
2006年3月毕业于日本九州工业大学机械智能工程专业,获工学博士学位,荷兰特文特大学高级访问学者、日本九州工业大学、法国里昂国立应用科学院(INSA de Lyon)、捷克布尔诺理工大学、美国奥克兰大学访问学者。2019年7月-2022年1月参加中国科学院心理学研究所发展与教育心理学专业研修班。主要从事弹流润滑基础理论、机械基础件(滚动轴承、工业链、齿轮、凸轮机构等)的润滑和磨损、轴承钢的力学性能分析、润滑油和润滑脂基础研究等方面的研究工作。主持国家自然科学基金项目4项、省部级、企业委托及国际合作项目20余项。发表科研论文180余篇,其中SCI/EI论文93篇,授权发明专利15项,主编教材3部。兴趣爱好广泛,发展多元立体。
研究方向:
1)弹流润滑基础理论;
2)机械基础件的润滑和磨损;
3)轴承钢力学性能分析;
4)润滑油和润滑脂基础研究;
3)三维编制复合材料的力学分析;
4)工业软件(智能排程系统APS、制造执行系统MES).
学术兼职:
[1] 轴承工业协会技术委员会第一届材料与热处理专家委员会委员,2024-2029
[2] 先进工程材料智库与产业联盟委员会理事(2024-2029)
[3]《摩擦学学报》青年编委(2024-2026)
[4] 机械工程领域高质量科技期刊分级评审专家,2024
[5] 中国机械工业教育协会机械设计制造及其自动化学科教学委员会委员(第3,4届)
[6] 学术桥评审专家
[7] 教育部高等学校科学研究发展中心评审专家
[8] 《轴承》杂志编委
[9] 中国机械学会高级会员
[10] ASME Journal of Tribology、Tribology International、 IMechE Journal of Engineering Tribology、Lubrication Science、Tribology Transactions、Tribology Online、Industrial Lubrication and Tribology、Advances in Mechanical Engineering、Lubricants、Mathematical Problems in Engineering、Journal of Bio- and Tribo-Corrosion、International Journal of Hydrogen Energy、Journal of Central South University、SAE International Journal of Fuels and Lubricants、《摩擦学学报》、《中国科学.技术科学》、《表面技术》、《润滑与密封》、《金沙集团软件学报》等20余家国内外期刊审稿人.
科研项目:
[1] 金沙集团软件纤维材料改性国家重点实验室重大/重点项目,2023-2027,高性能纤维复合材料大型结构件力学问题的多重网格法并行计算(主持).
[2] 企业委托课题,2023/12-2026/12,润滑油、脂基础研究(主持).
[3] 企业委托课题,2024/1-2024/6, 软件系统技术服务(主持).
[4] 上海市科委,2021/07-2021/12,多重网格方法在变速变载苛刻条件下的纺织机械专用滚动轴承高效润滑机理和应力场分布问题的应用(主持).
[5] 山东省自然基金面上项目,ZR2019MEE040,2019/07-2022/06,中高速链条套筒和销轴间润滑-磨损及界面行为调控(主持),.结题。
[6] 国家自然科学基金面上项目,51875298,2019/01–2022/12,中高速链条套筒和销轴受限间隙条件下的界面行为调控(主持),结题。
[7] 国家自然科学基金面上项目, 51275253,(2013/1-2016/12,高速滚动轴承自由运动表面润滑脂的流动及对弹流润滑的影响研究(主持),结题。
[8] 国家自然基金科学部主任基金专项基金项目,513401004,2013/6-2013/12, 2013年全国青年摩擦学学术会议(主持),结题.
[9] 国家自然科学基金青年基金,50705045, 2008/1-2010/12,冲击载荷作用下的弹塑性薄膜润滑行为研究(主持),结题.
[10] 教育部留学归国人员科研启动基金No. [2008]890, 2008/09-2010/09,基于混合热弹流润滑的CIP方法研究(主持),结题.
近三年发表论文:
[1] Mingyu Zhang, Xinqing Wang, Jing Wang, Yanshuang Wang, Yang Li, Yong Wan, Measurement of slip length and friction reduction: an experimental study about boundary slip using omniphobic and 2D coatings[J], Tribology International. 2024.9, accepted.
[2] Haiping Li, Mingyu Zhang, Haoyang Sun, Jing Wang, Numerical analysis of the Thermal EHL line contact problem under intermittent motion[J], ASME Journal of Tribology, 2024, accepted
[3] Hengrui Du, Jing Wang,Xinqing Wang, Effect of variable load on centralized dimple in an opposite sliding condition[J],ASME Journal of Tribology, 2025,147(1):014101
[4] Hengrui Du, Weidong Xie, Jing Wang, C.H. Venner. Rapid failure of lubricated contacts with grease under ZEV condition[J], ASME Journal of Tribology, 2025, 147(1): 014301.
[5] Mingyu Zhang, Jing Wang, C.H. Venner. Effect of boundary slips on Thermal EHL in simple sliding finite line contact considering limiting shearing stress[J], Friction, 2024, published online.
[6] Mingyu Zhang, Xinqing Wang, Yiming Han, Jing Wang, C.H. Venner. Point contact EHL and wear in intermittent motion[J], ASME Journal of Tribology, 2024, 146(12): 124103
[7] Xinqing Wang,Zhengdong Lv,Yiming Han,Jing Wang,Effect of grease composition on impact-sliding wear[J],Lubricants 2024, 12, 279.
[8] 张明宇,王静, 界面速度与温度滑移对有限长线接触纯滑动热弹流接触的影响[J], 摩擦学学报, 2024,44(8): 1092-1106.
[9] Hongfei Shi, Hanglin Li, Zhaoyang Guo, Hengyi Lu, Jing Wang, and Jiusheng Li, GNBoost-based ensemble machine learning for predicting tribological properties of liquid-crystal lubricants[J], Langmuir,2024, 40,10705-10717.
[10] Yiming Han, Jing Wang, Hengrui Du, Weimin Li, Jingxin Zhao, Zongyi Bai, Meng Hu,and Haichao Liu,Film thickness decay and wear behavior of grease-lubricated point contact under cyclic variable loads[J], Lubricants,2024,12,42.
[11] Yiming Han,Petr Sperka,Jing Wang,Ivan Krupka,Martin Hartl,Weimin Li,Xiaobo Wang and Weimin Liu,Influence of free water droplets on film formation under point contact grease lubrication[J], ASME Journal of Tribology, 2023. 145:074101.
[12] Zhang M Y,Yao M L,Wang J and Wan Y,Point contact thermal mixed-EHL under short period intermittent motion[J],ASME Journal of Tribology, 2023. 145:082202.
[13] Zhang M Y,Wang J, Venner CH and Sun Haoyang, A thermal EHL investigation for finite line contact under starved condition on bush-pin hinge pairs in industrial chains[J], Proceedings of the Institution of Mechanical Engineers: Part J Journal of Engineering Tribology,2023, 237(5), 1119-1132
[14] Yiming Han,Jing Wang, Weimin Li,Haijiang Li and Jibin Pu. Evolution of grease lubrication regimes and surface damage during reciprocation- oscillation transformation[J]. Proceedings of the Institution of Mechanical Engineers: Part J Journal of Engineering Tribology, 2023. 237(2), 248-267.
[15] Zhendong Lv, Yiming Han, Rui Zhang, Jing Wang, Occurrence of grease lubricated impact-sliding wear[J],Lubricants,2022, 10, 284.
[16] Bingxu Wang,FengQiu,Gary C.Barber,QianZou,JingWang,Shaoyi Guo,YongfengYuan,Qichuan Jiang, Role of nano-sized materials as lubricant additives in friction and wear reduction: a review[J], Wear, 2022, 490–491:204206
[17] Xianghua Meng,Jing Wang,Gyoko Nagayama, Boundary slip-induced temperature rise and film thickness reduction under sliding/rolling contact in thermal elastohydrodynamic lubrication[J],ASME Journal of Tribology, 2022,144:071602
[18] Zhang A S,Zhang M Y,Wang J,Zhang J J,Shang Z H,Liu Y and Dai L J, Experimental study of pin surface precision on lubrication behavior of pin-bush pairs in industrial roller chains[J],Industrial Lubrication and Tribology,2021, 73(5):765-774.
[19] Yiming Han, Jing Wang, Xuyang Jin, Shanshan Wang and Rui Zhang,Effects of Slide-roll Ratio and Varying Velocity Lubrication Performance of grease at Low Speed[J],Proceedings of the Institution of Mechanical Engineers: Part J Journal of Engineering Tribology, 2021, 35(10): 2122-2136.
[20] Motohiro Kaneta, Kenji Matsuda, Jing Wang, Jinlei Cui, Peiran Yang, et al., Numerical Study on the interaction of transverse and longitudinal roughness on elastohydrodynamic lubrication contact surfaces with different thermal conductivities and elastic moduli[J],ASME Journal of Tribology,2021,143(33): 091601-1
[21] Xianghua Meng, Jing Wang, Hiroshi Nishikawa, Gyoko Nagayama, Effects of boundary slips on thermal elastohydrodynamic lubrication under pure rolling and opposite sliding contacts, Tribology International. 2021,155:. 106801
[22] 胡金涛,张安生,张恩惠,李维民,王静,王晓波,高温热效应对复合锂基润滑脂性能影响规律研究[J],摩擦学学报. 2021, 41(4): 447-454.
获奖情况:
[1] 质量导向、多元协同,构建机械类研究生创新与实践能力培养体系,山东省第九届教学成果奖(高等教育类)二等奖,4/9, 2022. 3.
[2] Merit Award, Occurrence of grease lubricated impact-sliding wear, International Conference on Engineering Tribology and Applied Technology , Taiwan, China, 2022
[3] Best Poster,Effect of variable load on centralized dimple in opposite sliding condition,International Conference on Engineering Tribology and Applied Technology , Taiwan, China, 2022.
[4] Best Poster Awards, 2020 International Conference on Engineering Tribology and Applied Technology, 2020.11, Taiwan.
[5] 复杂机械系统运行状态感知、故障诊断与预测性维护关键技术, 青岛市科学技术进步奖三等奖, 2019.12.
[6] 山东省优秀硕士生导师,2019. 5.
[7] 山东省老员工“三下乡”社会实践活动优秀指导教师,2018.12.
[8] Best Industry-Academic Application Award, 2018 International Conference on Engineering Tribology and Applied Technology, 2018.11, Taipei, Taiwan.
[9] 零卷吸条件下弹流油膜表面凹陷现象研究,山东省优秀硕士学位论文指导教师,2017.10.
[10] Maurice Godet Award for the best paper and presentation by a young scientist, 32nd Leeds-Lyon Symposium, Lyon, France, 2005.9.
[11] 弹流润滑的热粘度楔机理研究, 青岛市科学技术奖一等奖, 3/5, 2006.3.
[12] 基于弹流润滑表面凹陷机理的复合多重网格算法研究,山东省高等学校优秀科研成果奖自然科学类一等奖, 4/7,2001.12.
主讲课程:
[1]《机械设计》本科生
[2] 薄膜润滑数值分析及实验技术》研究生
[3]《先进润滑科学与工程》研究生
[4]《机械工程领域专业(行业)前沿进展》研究生(集体授课)
[5]《机械工程前沿概论》研究生(集体授课)
[6]《论文写作指导》研究生(集体授课)
联系方式:
地址:上海市松江区人民北路2999号4号学院楼5017室 201620
邮箱:jingwang@dhu.edu.cn
办公电话:18669723895
Add:Room 5017 No.4 College Building, 2999 North Renmin Rd, Songjiang, Shanghai, P.R.C, 201620
E-mail:jingwang@dhu.edu.cn
Tel:18669723895