基本情况

职称：副教授

最高学位：博士

主要研究方向：

1、材料/构件的表面处理及摩擦磨损、疲劳理论与试验研究；

2、高性能金属/复合材料的制备技术；

3. 高性能金属基复合材料合成及力学行为研究；

4.基于AI的材料信息学研究：利用机器学习、深度学习等方法，构建高通量多尺度材料计算模型，预测材料力学性能；

5.基于增材制造、界面演变机制分析及新型可控设计方法的高性能摩擦副接触界面损伤与修复的耦合机制研究。

讲授课程：

1. 材料导论

2. 热流体工程

3.计算材料学与材料设计

4. 粉末冶金原理与工艺

指导研究生方向：基于材料制备、实验表征，结合机器学习及有限元模拟、分子动力学模拟、第一性原理计算等数值模拟方法，开展材料信息学、材料微观组织结构表征与性能调控方面的研究。

指导研究生专业：1）学硕：材料科学与工程、力学；2专硕：材料工程、机械工程。

导师类别：学术型硕导、专业型硕导

招生信息：每年招收硕士生3名

联系方式：邮箱：jywszx@126.com

欢迎材料、机械及物理、化学等学科背景的同学邮件咨询，共同学习和进步。本课题组科研与学习生活氛围非常良好。

科研项目：

1.自治区博士后普通资助，2024.1-2025.12，主持，结题；

2.自治区青年人才项目，2024.1-2026.12，主持，在研；

3.国家资助博士后研究人员计划（C档），2024.1-2025.12，主持，结题；

4.自治区青年基金，2024.10-2027.9，主持，在研；

5.粉末冶金全国重点实验室开放课题，2024.10-2025.9主持，结题；

6.自治区高校基本科研业务费科研项目，2025.1-2027.12主持，在研；

7.自治区两区项目， 2026.4-2028.4 主持，在研。

教育及工作经历

2024.02 - 至今 新疆大学，材料科学与工程学院，副教授、硕导

2023.12- 2024.01新疆大学，机械工程学院，副教授、硕导

2023.02- 2023.11新疆大学，机械工程学院，讲师、硕导

2018.09- 2022.12中南大学，粉末冶金研究院，工学博士学位

2015.09- 2018.06中南大学，资源加工与生物工程学院，工程硕士学位

2010.09- 2014.06中南大学，资源加工与生物工程学院，工学学士学位

奖励情况

指导学生竞赛获奖

2025年，中国大学生机械工程创新创意大赛校内选拔赛暨新疆大学第二届材料热处理创新创业赛大赛，一等奖，指导教师

学术成果

    学术论文

1.Xin Zhang, Wenxiao Wang（本科）, Kun Pei, Liuchen Wu, Yi Tao（本科）, Xiao Kang*. Enhancing friction reduction and wear resistance in CuZn-graphite self-lubricating composites via yttria(Y₂O₃) incorporation.Tribology International, 2026, 214: 111227.（中科院一区，Top）

2.Yi Tao（本科）,Zhang Xin*, Liuchen Wu, Wenxiao Wang（本科）.Simultaneously Enhancing Mechanical and Current-Carrying Tribological Properties of Cu-Graphite Composites Using Ti₃AlC₂-Derived Reinforcements.Ceramics International, 2026.（中科院一区）

3.Liuchen Wu, Meiling Xie, Hanhan Yang（本科）, Wenxiao Wang（本科）, Jiashang Li（本科）,Xin Zhang*.Investigation into the Running-in Behavior of a CuZn Based Self-Lubricating Composite.Wear,2026,592:206625.（中科院一区）

4.Xin Zhang*,Jiashang Li（本科）, Hanhan Yang（本科）,Liuchen Wu, Wenxiao Wang（本科）.Study on the Mechanism of Synergistic Improvement of Tribological Properties in CuZn Matrix Self-Lubricating Composites by Graphite Lubricating Phase and Y₂O₃Reinforcement Phase.Wear,2026,590:206579.（中科院一区）

5.Xin Zhang*, Hanhan Yang（本科）, Jiashang Li（本科）. Mechanisms of synergistic regulation on friction and wear performance of SUS304 stainless steel by DLC coatings and laser-textured dimple morphologies.Surface and Coatings Technology, 2025, 516: 132718.（中科院一区）

6.Zhang Xin*,Yi Tao（本科）, Liuchen Wu,Xiongwei Shi.Synergistic Effects of Y₂O₃Addition on the Current-Carrying Tribological Properties of CuZn-Graphite Composites.Materials Chemistry and Physics, 2026,352:132020.

7.Zhang Xin*, Yi Tao（本科）, Liuchen Wu, Wenxiao Wang（本科）,Keyi Zhang,Xiao Kang*.Friction Reduction and Wear Resistance of DLC Coatings: Time-Series Analysis, Characterization, and Thermomechanical Simulation.Journal of Materials Engineering and Performance, 2026.

8.Zhang Xin*,Meiling Xie, Liuchen Wu. Tribological Behavior of Ceramic Ball/Nitride Coating Pairs: A Comparative Study Integrating Time‐Series Analysis, Interface Morphology Characterization, and Numerical Simulation.Advanced Engineering Materials,2026,28(4).

9.Xiongwei Shi,Xin Zhang*, Xiao Kang*, Haobo Yang,Liuchen Wu.Synergistic effects of laser-textured microgroove geometry and diamond-like carbon coating on tribological performance of SUS304 stainless steel.Surface Topography: Metrology and Properties,2025,13(4).

10.Zhang Xin*,Liuchen Wu,Liuchen Wu,Xiao Kang,Qiang Li*.Synergistic effect of bionic snake scale micro-textured surface and DLC coating on tribological performance of friction pairs.Diamond and Related Materials, 2025,160:112993.（中科院二区）

11.Liuchen Wu,Xin Zhang*, Wenxiao Wang（本科）. Enhanced tribological properties in FeCoCrNiAl-x wt% Ag high-entropy alloys: experimental and molecular dynamics investigations.Materials Letters, 2026, 404: 139637.

12.石雄伟,张鑫,康潇,邬柳臣,肖雳.风电滑环用Cu-Graphite-CNTs在低电流下的载流摩擦性能研究.粉末冶金材料科学与工程.

13.Xin Zhang, Ruonan Liu, Keyi Zhang（本科）, et al. Multiscale regulation of friction-wear synergy silver alloying strategy for optimizing FeCoCrNiAl high-entropy tribo-Systems,Materials Today Communications, 2025: 113351.

14.Li Xiao,Xin Zhang*, Liuchen Wu, et al. Friction performance optimization based on sinusoidal microtexture-DLC coating coupling Effect of circular frequency on reciprocating friction mechanism,Diamond and Related Materials, 2025, 159: 112719.

15.Xin Zhang*, Wenxiao Wang（本科）,Yi Tao（本科）, et al. Effect of texture shape on the tribological behavior of metal friction pairs under dry sliding conditions FEM and characterization,Materials Letters, 2025, 393: 138556.

16.Xin Zhang*, Haobo Yang, Wenxiao Wang（本科）, et al. Effect of optimization of texture density on improving the tribological properties of metal friction pairs with different hardness ratios,Advanced Engineering Materials, 2025.

17.Xin Zhang*, Yi Tao（本科）,Wenxiao Wang（本科）,Tribological interactions between nitride coatings and Al₂O₃ counterparts: time-dependent friction mechanisms and thermo-mechanical response,Surface Topography: Metrology and Properties, 2025.

18.Haobo Yang, Liuchen Wu,Xin Zhang*. Mechanisms of Y₂O₃content on multi-scale interfacial performance in Cu–Zn matrix self-lubricating composites,Materials Letters, 2025: 139282.

19.Chengwu Zhang, Qiang Li*,Zhang Xin*, et al. Effects of HVOF sprayed, laser cladding and laser remelted preparation process on wear and corrosion properties of Fe-based amorphous alloy coatings.Surface and Coatings Technology, 2025, 511(49):132292.（中科院一区）

20.Xin Zhang*，Jiashang Li（本科），Hanhan Yang（本科），Interfacial tribological behavior and wear resistance mechanisms inTiAlN-coated bionic micro-textured surfaces.Materials Chemistry and Physics,2026,347:131490.

21.Xiao Kang, Wang Jianying, Yang Feipeng,Zhang Xin, Tu Youwang, Zhang Lei, Yang Hailin. A novel CoCrNiWAg_xmedium-entropy alloy matrix composite reinforced by Ag nanoparticle and self-lubricating mechanism under ambient air and high vacuum conditions[J].WEAR, 2023, 516: 204586.（中科院一区，Top）

22.Xiuchong Zhu, Shumin Zhang, Lei Zhang, Yong He,Xin Zhang, Xiao Kang. Frictional behavior and wear mechanisms of Ag/MoS₂/WS₂composite under reciprocating microscale sliding[J].Tribology International, 2023, 185: 108510.（中科院一区，Top）

23.Zhang Xin, Zhang Lei, Yang Zhi, Zhu Xiu-chong, He Yong, Xiao Kang. Tracing the evolution of contact area during the running-in process of AgCu-MoS₂composite[J].Tribology International, 2022, 174: 107739.（中科院一区，Top）

24.Zhang Xin, Zhang Ke, Zhang Lei, Kang Xiao. Friction maps and wear maps of Ag/MoS₂/WS₂nanocomposite with different sliding speed and normal force[J].Tribology International, 2021, 164: 107228.（中科院一区，Top）

25.Zhang Xin, Zhang Lei, Kang Xiao. Numerical simulation of the friction damage mechanism for low wear silver matrix nanocomposite using the discrete element method [J].Materials Letters, 2022, 324: 132772.

26.Zhang Xin, Zhang Lei, Yu Xinyue, Zhu Xiuchong, Tu Youwang, Kang Xiao. A novel and quantitative characterization method for the running-in process through dimensionless real contact area[J].WEAR, 2022,514: 204554.（中科院一区，Top）

27.Yang Baozhen,Zhang Xin（共同一作），Xiong Xiang, Liu Rutie. Optimization for carbide distribution and ratio to improve the tribological performance of FCC-based (CrFeNi)_100-xC_xmedium-entropy alloys (x=0,4,8) fabricated by powder metallurgy[J].International Journal of Refractory Metals and Hard Materials, 2022, 106: 105858.

28.Yang Zhi,Zhang Xin（共同一作），Zhang Lei, et al. Vectorial feature and evolution of run-in attractors for the AgCu-MoS₂/AgCu10 tribo-pair[J].Surface Topography: Metrology and Properties, 2022, 10(4): 045013.

29.Youwang Tu, Lei Zhang,Xin Zhang, Xiao Kang. Improving the mechanical and tribological behavior of Cu-WS₂self-lubricating composite with the addition of WS₂nanosheet [J].WEAR, 2023,530: 205013.（中科院一区，Top）

社会兼职

Friction,Surface and Coatings Technology等期刊审稿人