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　 a清华大学 机械工程系，博士后/助理研究员

2025.08-至今　　  北京科技大学 机械工程学院，特聘副教授

代表性论著 (2022-2025)：

[1] 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.

[2] Peili Gao, Yunze Li, Yi Zhang, Kai Gao, Hao Chen, Lin Zhang, Guoxin Xie. High-temperature superlubricity microcapsules. Small, 2025, Accepted. DOI: 10.1002/sml1.202508109.

[3] 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.

[4] 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.

[5] 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.

[6] 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.

[7] 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.

[8] 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.

[9] 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.

[10] 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.

[11] 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.

[12] 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.

[13] 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.

[14] 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.

[15] 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.

[16] 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.

[17] 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，积极开展科研工作。在机械系统多学科耦合设计方面，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、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/可靠性分析优化，降低高速柔性、低速重载系统等的振动、能耗、磨损、噪声，改善服役性能和寿命；在机械润滑界面行为与控制方面，开展智能润滑/超滑体系设计，基于微胶囊技术，研发针对苛刻服役工况的智能运动副，实现轴承等的自润滑/自修复/自监测反馈功能集成，并结合固液超滑理论与微纳制造加工技术，实现轴承钢、聚合物衬垫复材等宏观工程界面的高承载/宽温域超滑近零磨损设计。目前主持国自然青年基金项目、清华大学机械系及清华大学天津高端装备研究院科技合作项目、北科大科研启动经费等，参与国自然重大研究计划、JKWGFKJ基础加强重大项目、国自然面上项目、北京市杰青项目等，发表相关学术论文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等国际期刊审稿人。