学 位:博士
所在系所:机械工学系
行政职务:无
办公地点:机电楼613A
办公电话:010-62332357
电子邮箱:yizhang159@ustb.edu.cn / acespiker@foxmail.com
科研方向:机械动力学及摩擦学;高端装备多学科耦合建模与设计优化;智能润滑/新型超滑体系设计调控(微胶囊润滑、自修复技术)
教育经历:
2018.09-2022.06 合肥工业大学 机械工程学院,获博士学位
2015.09-2018.06 合肥工业大学 机械工程学院,获硕士学位
2010.09-2014.06 南昌大学 机电工程学院,获学士学位
工作经历:
2022.07-2025.07 清华大学 机械工程系,博士后/助理研究员
2025.08-2026.06 北京科技大学 机械工程学院,特聘副教授
2026.07-至今 北京科技大学 机械工程学院, 副教授
代表性论著 (2022-2026):
[1] Gaoyu Wang, Ping Chen*, Yi Zhang*, Na Hu, Ting Dai, Ping An. Fly ash cenospheres reinforced hybrid microcapsules for self-lubricating and self-healing epoxy composites. Tribology International, 2026, 224, 112298.
[2] Zheng Wang, Liguo Qin*, Mingqing Sun, Chunli Liu, Juan Su, Jiawei Pan, Zhenjiang Cao, Yi Zhang*, Shan Lu, Miao Zhang, Mulong Jiang, Qi Zhang, Kai Xi, Guangneng Dong*. Controlled oxidation of MXene for regulating tribochemistry at sliding interfaces. Advanced Functional Materials, 2026, 36(47), e75468.
[3] Yinbo Li, Jingle Cao, Youwei Chen, Yi Zhang*, Xuhui Sun, Chengcheng Yu*, Guoxin Xie*. Influence mechanism of surface treatment on the wear and adhesion at the frictional interface of 2A14T6 aluminum alloy [J]. Chinese Journal of Mechanical Engineering, 2026, 39, 100069.
[4] Ning Wang, Ping Chen*, Yi Zhang, Xueqi Ye, Gaoyu Wang, Bochao Cui, and Weixu Yang. Picosecond laser processing for stainless steel textured surfaces: Optimizing texture width to improve resistance to solid particle erosion. Tribology International, 2026, 219, 111871.
[5] Yi Zhang†, Hao Chen†, Kai Gao, Yunze Li, Jianguo Jiao, Yilong Ren, Chengcheng Yu, Gang Zhou, Lin Zhang*, Jianbin Luo*, Guoxin Xie*. Superlubricity microcapsules [J]. ACS Applied Materials & Interfaces, 2025, 17(9): 14634-14644.
[6] Peili Gao†, Yunze Li†, Yi Zhang†, Kai Gao, Hao Chen, Lin Zhang*, Guoxin Xie*. High-temperature superlubricity microcapsules. Small, 2025, 21(49), e08109.
[7] Gang Wang*, Xuewei Zhao, Yi Zhang, Changlin Li, Jianjun Du*. Transient mixed lubrication analysis of the hydrodynamic bearing-rotor system during start-up considering misalignment and wear. Nonlinear Dynamics, 2025, 113: 17769-17789.
[8] Yi Zhang, Hao Chen, Kai Gao, Yunze Li, Jianguo Jiao, Guoxin Xie*, Jianbin Luo*. Macroscale superlubricity with high pressure enabled by partially oxidized violet phosphorus for engineering steel. Advanced Functional Materials. 2024, 34, 2401143.
[9] Yi Zhang, Jianguo Jiao, Hao Chen, Kai Gao, Yilong Ren, Yunze Li, Lin Zhang, Guoxin Xie*, Jianbin Luo*. Degradation induced superlubricity on the rough surface of black phosphorus composite. Chemical Engineering Journal. 2024, 490, 151507.
[10] 廖贵文, 张毅, 魏凯, 刘小君, 王伟*. 受限润滑界面液固二相流场结构与颗粒运动行为耦合特性分析. 机械工程学报,2024, 60(20): 351-360.
[11] Yunze Li, Changfeng lu, Kai Gao, Yi Zhang, Lin Zhang*, Guoxin Xie*. Enhanced lubrication performance of PFPE with TMFS-modified MoS2 under high-temperature conditions. Applied Surface Science. 2024. 683, 161854.
[12] Zhaozheng Wang, Kai Gao, Yuan Feng, Jie Cao, Likun Gong, Beibei Fan, Yi Zhang, Guoxin Xie*, Chi Zhang*. Characterizing superlubricity by tribovoltaic effect. Science Bulletin. 2024. 69(9), 1197-1201.
[13] Yi Dong, Biao Ma, Cenbo Xiong*, Qin Zhao, Hao Chen, Yi Zhang, Guoxin Xie. Tribological and wear properties of Cu-based composite reinforced by core-shell structure in multi-disk clutch. Tribology Letters. 2024, 72, 66.
[14] Yi Zhang, Wei Wang*, Gang Wang, Peng Huang, Jimin Xu, Kun Liu. Experimental detection of lubrication characteristics in a solid-liquid two-phase flow supported bearing-rotor system using vibration monitoring techniques. Tribology Transactions. 2023, 66(11): 1-27.
[15] Hao Chen, Yi Zhang, Kai Gao, Yilong Ren, Jianguo Jiao, Lin Zhang*, Dan Guo, Guoxin Xie*. Ultralow friction polymer composites enabled by the solid-liquid core microcapsules at high temperatures. Chemical Engineering Journal. 2023, 477: 146780.
[16] Yunze Li, Kai Gao, Yi Zhang, Jianguo Jiao, Lin Zhang*, Guoxin Xie*. Partially oxidized violet phosphorus as an excellent lubricant additive for tribological applications. Nano Letters, 2023, 23(14): 6292-6300.
[17] Xiaoyi Wu, Yi Zhang, Hao Chen, Lin Zhang*, Guoxin Xie*. Solvent effect of microcapsules endows self-lubricating polymer composites with wear in-situ self-healing function. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2023, 676: 132158.
[18] Yi Zhang, Wei Wang*, Daogao Wei, Gang Wang, Jimin Xu, Kun Liu. Coupling analysis of tribological and dynamical behavior for a thermal turbulent fluid lubricated floating ring bearing-rotor system at ultra-high speeds. Tribology International. 2022, 165: 107325.
[19] Yi Zhang, Wei Wang*, Daogao Wei, Gang Wang, Jimin Xu, Kun Liu. Dynamic stability of unbalance-induced vibration in a turbocharger rotor-bearing system with the nonlinear effect of thermal turbulent lubricating fluid film. Journal of Sound and Vibration. 2022, 528: 116909.
[20] 张毅, 王伟*, 魏道高, 王刚, 许吉敏, 刘焜. 高速轻载涡轮增压器转子-浮环轴承系统不平衡响应及稳定性分析. 摩擦学学报. 2022, 42(03): 620-631.
[21] Gang Wang, Wei Wang*, Yi Zhang, Jinlong Shen, Jimin Xu, Kun Liu. A solution for mixed elastohydrodynamic lubrication modeling considering effects of solid particles and surface roughness. PIME, Part J: Journal of Engineering Tribology. 2022, 236(11): 2272-2282.
成果与荣誉:
长期以来,坚持学术研究服务机械工程学科发展,积极开展教研工作。在机械系统多学科耦合设计领域,通过多场耦合的偏/常微分方程、积分方程组等对涉及的动力学、摩擦学、流体力学、热力学问题进行理论建模与仿真计算,并结合实验测试进行稳定性/可靠性分析以优化设计,降低高速柔性、低速重载系统等的振动、能耗、磨损、噪声,改善装备服役性能和寿命;在机械润滑界面行为与控制领域,针对服役工况苛刻的航天航空/军工装备,开展智能润滑/超滑体系设计,一方面基于固液微胶囊/自修复技术,实现轴承等运动副的自感知润滑/高可靠长寿命/故障监测应急设计,另一方面结合固液超滑理论与微纳制造技术,实现轴承钢/树脂基聚合物/DLC碳膜/陶瓷涂层等工程界面的高承载/宽温域超滑设计。目前主持国家自然科学基金项目、清华大学机械系/先进院及清华大学天津高端装备研究院科技合作项目、北科大青年教师未来探索项目等,参与国自然重大研究计划、JKWGFKJ基础加强重大项目、北京市杰青项目、省重点研发计划等,在Advanced Functional Materials、Nano Letters、Small、ACS Applied Materials & Interfaces、Chemical Engineering Journal、Tribology International、Journal of Sound and Vibration、机械工程学报、摩擦学学报等期刊发表论文30余篇,获授权发明专利多项。在社会/学术兼职方面,担任国家自然科学基金评审专家、中国机械工程学会会员、Tribol. Int., Chem. Eng. J., ACS AMI, Engineering等国际期刊审稿人。
电话:010-62332365
地址:北京市海淀区北京科技大学学院路30号
邮编:100083
邮箱:meoffice@me.ustb.edu.cn
北科大机械学院
北科机械学子