王艳

王艳 讲师

学位：工学博士

职称：讲师

毕业院校：中南大学

办公地点：西四楼212室

联系方式：wangyan2017@zzuli.edu.cn

主要从事金属及其复合材料的成分设计、制备、性能检测和摩擦磨损行为等方面研究。较为系统的开展了摩擦诱导晶化、晶化动力学行为及银基电刷摩擦磨损行为等研究。在高铁刹车片、风机电刷等方面开展了大量的应用基础研究。

铜基复合材料、耐磨金属材料的制备及摩擦磨损机理研究

2013/09 - 2016/12中南大学，材料科学与工程，博士

《摩擦磨损原理》、《材料力学》、《理论力学》、《热工基础》、《工程力学》

河南省科技攻关项目微型电机用Cu-Zr-Al非晶合金摩擦微结构调控关键技术研究

河南省高等学校重点科研项目风力电机用Cu-graphite-WS₂-MoS₂电刷材料的研制与载流摩

擦学性能研究

[1] Wang Yan, Zhai Hengtao, Li Qiang, Liu Jianxiu, Fan Jianglei, Li Ying, Zhou Xiangkui. Effect of Co

substitution for Fe on the non-isothermal crystallization kinetics of Fe80P13C7 bulk metallic glasses [J].

Thermochimica Acta, 2019, 675: 107-112

[2] Wang Yan, Zhang Lei, Zhai Hongfei, Gao Hongxia. Tribological behavior of Cu-15Ni-8Sn/graphite under sea water, distilled water and dry-sliding conditions [J]. Journal of Central South University, 2019, 26: 2623-2633

[3] Yang Wenjie, Wang Yan*, Zhai Hongfei, Fan Jianglei. Effect of NiO addition on the high-temperature

oxidation and corrosion behaviors of Fe-Ni alloy as inert anode material for aluminum electrolysis [J].

Journal of Materials Science, 2020, 55: 4065-4072

[4] Yan Wang, Wu Chen, Tuo Wang, Hailin Yang, Xidong Hui, Lei Zhang. Crystallization behavior of

subsurface in (Zr,Cu)95Al5 bulk metallic glass induced by different counter-face materials [J]. Materials&

Design, 2016, 111: 213-221.

[5] Yan Wang, Lei Zhang, Tuo Wang, Xidong. Hui, Wu Chen, Chunfang Feng. Effect of sliding velocity

on the transition of wear mechanism in (Zr,Cu)95Al5 bulk metallic glass [J]. Tribology International,

2016, 101: 141-151.

[6] Yan Wang, Lei Zhang, Jinkun Xiao, Wu Chen, Chunfang Feng, Xueping Gan, Kechao Zhou. The

tribo-corrosion behavior of Cu-9 wt% Ni-6 wt% Sn alloy [J]. Tribology International, 2016, 94: 260-268.

[7] Yan Wang, Kai Xu, Qiang Li. Comparative study of non-isothermal crystallization kinetics between

Fe80P13C7 bulk metallic glass and melt-spun glassy ribbon [J]. Journal of Alloys and Compounds, 2012,

540: 6-15.

[8]一种连续碳纤维增强金属基复合材料的制备方法, ZL202010630696.1

[9]一种复合强化法制备混杂颗粒增强铝基复合材料的方法, ZL201811162367.8

(1)王艳(5/15),新型轻量化复合材料性能评价与损伤检测技术及应用,河南省教育厅,科技成果奖

(2)王艳(11/15),节能高效新型电机关键技术开发与应用,河南省教育厅,科技成果奖

(3)王艳(6/15),铝合金节能熔炼和高性能材料制备关键技术及其应用,河南省教育厅,科技成果奖