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夏文真


发布时间:2021-04-23        浏览:

       

夏文真

博士,教授

办公地点:冶金楼南315

电子邮件:w.xia@ahut.edu.cn

/ 科研方向

微纳力学;

微观组织结构表征;

金属材料加工与组织性能控制;

高熵合金;

摩擦磨损与润滑.

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2017年12月毕业于澳大利亚伍伦贡大学,获得博士学位。2018年1月至2021年1月,在德国马普钢铁研究所从事博士后工作。2021年3月,以学术带头人层次教授职称加盟安徽工业大学冶金工程学院。2021年4月成立“微纳组织与力学研究所”并担任该研究所负责人。至今在Advanced materials、Small、Materials and Design等期刊上发表了学术论文20余篇。

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[1]Wenzhen Xia*, Gerhard Dehm, Steffen Brinckmann*. Unraveling indentation-induced slip steps in austenitic stainless steel. Materials & Design, 183(2019): 108169.

[2]Wenzhen Xia*, Gerhard Dehm, Steffen Brinckmann*. Investigation into plastic flow and friction during single asperity microscratch in an austenitic steel. Wear, 452-453(2020): 203289. 影响因子4.108

[3]Wenzhen Xia*, Gerhard Dehm, Steffen Brinckmann*. Insight into indentation induced plastic flow in austenitic stainless steel. Journal of Materials Science, 55(2020): 9095–9108.

[4]Hanna Tsybenko*, Wenzhen Xia*, Gerhard Dehm, Steffen Brinckmann*. On the commensuration of plastic plowing at the microscale. Tribology International, 151 (2020): 106477.

[5]Wenzhen Xia, Jingwei Zhao, Hui Wu, Xianming Zhao, Xiaoming Zhang, Jianzhong Xu, Sihai Jiao, Xiaogang Wang*, Cunlong Zhou, Zhengyi Jiang*. Effects of oil-in-water based nanolubricant containing TiO2 nanoparticles in hot rolling of 304 stainless steel. Journal of Materials Processing Technology, 262(2018): 149-156.

[6]Wenzhen Xia, Jingwei Zhao, Hui Wu, Sihai Jiao, Xianming Zhao, Xiaoming Zhang, Jianzhong Xu, Zhengyi Jiang*. Analysis of oil-in-water based nanolubricants with varying mass fractions of oil and TiO2 nanoparticles, Wear, (396-397)2018:162-171.

[7]Wenzhen Xia, Jingwei Zhao, Xiawei Cheng, Jingna Sun, Hui Wu, Yi Yan, Sihai Jiao, Zhengyi Jiang*. Study on growth behaviour of oxide scale and its effects on tribological property of nano-TiO2 additive oil-in-water lubricant, Wear, 376(2017): 792-802.

[8]Wenzhen Xia, Jingwei Zhao, Hui Wu, Sihai Jiao, Zhengyi Jiang*. Effects of oil-in-water based nanolubricant containing TiO2 nanoparticles on the tribological behaviour of oxidised high-speed steel, Tribology International, 110 (2017): 77-85.

[9]Wenzhen Xia, Jingwei Zhao, Hui Wu, Xianming Zhao, Xiaoming Zhang, Jianzhong Xu, Ay Ching Hee, Zhengyi Jiang*. Effects of nano-TiO2 additive in oil-in-water lubricant on contact angle and antiscratch behavior. Tribology Transactions, 60 (2017): 362-372.

[10]Wenzhen Xia, Xianming Zhao, Xiaoming Zhang, Di Wu. Effects of offline relaxation quenching on microstructure and mechanical properties of a newly designed high performance steel. Journal of Iron and Steel Research, International, 21 (2014): 459-463.

[11]Ge Wu, Shanoob Balachandran, Baptiste Gault, Wenzhen Xia, Chang Liu, Ziyuan Rao, Ye Wei, Shaofei Liu, Jian Lu, Wenjun Lu*, Gerhard Dehm, Zhiming Li*, Dierk Raabe*. Crystal-glass highentropy nanocomposites with near theoretical compressive strength and large deformability. Advanced materials, (2020): 2002619.

[12]Shyam Katnagallu, Ge Wu, Shiv Prakash Singh, Sree Harsha Nandam, Wenzhen Xia, Leigh T. Stephenson, Herbert Gleiter, Ruth Schwaiger, Horst Hahn, Michael Herbig, Dierk Raabe, Baptiste Gault*, Shanoob Balachandran. Nanoglass–nanocrystal composite – a novel material class for enhanced strength –plasticity synergy. Small, (2020): 2004400.

[13]Zhangwei Wang, Lin Guo, Wenzhen Xia, Zhao Yuan, Yang Cao, Song Ni, Min Song*. An SEM-based approach to characterize the microstructural evolution in a gradient CoCrFeNiMo0.15 high-entropy alloy. Materials Characterization, (2020):110169.

[14]Hui Wu, Jingwei Zhao, Wenzhen Xia, Xiawei Cheng, Anshun He, Jung Ho Yun, Lianzhou Wang et al. A study of the tribological behaviour of TiO2 nano-additive water-based lubricants. Tribology International, 109 (2017): 398-408.

[15]Hui Wu, Jingwei Zhao, Wenzhen Xia, Xiawei Cheng, Anshun He, Jung Ho Yun, Lianzhou Wang et al. Analysis of TiO2 nano-additive water-based lubricants in hot rolling of microalloyed steel. Journal of Manufacturing Processes, 27 (2017): 26-36.

[16]Hui Wu, Jingwei Zhao, Xiawei Cheng, Wenzhen Xia, Anshun He, Jung Ho Yun, Shuiquan Huang et al. Friction and wear characteristics of TiO2 nano-additive water-based lubricant on ferritic stainless steel. Tribology International, 117(2018): 24-38.

[17]Xiawei Cheng, Zhengyi Jiang, Dongbin Wei, Liang Hao, Hui Wu, Wenzhen Xia, Suzhen Luo, Laizhu Jiang. Effects of surface preparation on tribological behaviour of a ferritic stainless steel in hot rolling. Wear, 376(2017): 1804-1813.

[18]Feijun Qu, Zhengyi Jiang, Wenzhen Xia. Evaluation and optimisation of micro flexible rolling process parameters by orthogonal trial design. The International Journal of Advanced Manufacturing Technology, 95(2018): 143-156.

/ 科研项目


[1]德国科学基金会项目,在纳米摩擦下FCC和BCC金属破坏机制研究,参与;

[2]宝钢澳大利亚联合研发中心项目,新型热轧水油基纳米润滑剂的开发,参与;

[3]澳大利亚研究理事会和宝钢澳大利亚联合研发中心项目,新型热轧钢铁用水基纳米润滑技术的开发,参与;

[4]澳大利亚研究理事会探索项目,新型复合微型钻头的微制造及力学研究,参与;

[5]国家973项目,高性能钢的组织调控理论和技术基础研究,参与;

[6]台湾中钢项目,热轧钢板控轧与超快冷研究,参与;

[7]内蒙古包头钢铁项目,重轨在线冷却研究,参与。

/ 奖励荣誉


[1]澳大利亚伍伦贡大学优秀博士论文奖。





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