/ 本科生课程

《塑性加工原理》

《新生研讨课[型]》

《认识实习[型]》

《生产实习与科学实践[型]》

/ 研究生课程

《科技论文与专利撰写规范》

/ 科研方向

[1]   金属材料摩擦磨损等使役行为；

[2]   材料的微纳力学行为与强韧化机制；

[3]   金属材料加工与组织性能控制等。

/ 简 历

夏文真，教授、博士生导师，现任公司党委委员、第三届教授委员会副主任委员，材料成型及控制工程系党支部书记，微纳组织与力学研究所所长，安徽省低碳冶金与流程控制工程研究中心常务副主任。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（Max-Planck-Institut   für   Eisenforschung）从事Staff Scientist及博士后工作。2021年3月，以学术带头人层次教授职称加盟英国上市公司365，并于同年4月牵头组建“微纳组织与力学研究所”，担任研究所负责人。2023年入选安徽省级青年人才计划。2023年3月至12月在德国马普钢铁研究所担任客座研究员。2023年9月至2024年6月在北京大学工学院从事访问学者研修工作（合作导师：段慧玲院士）。2024年，由其领衔的微纳组织与力学创新团队成功入选英国正版365官方网站省级培育团队建设计划。先后主持了国家自然科学基金青年基金、安徽省级青年人才项目、英国正版365官方网站高层次人才科研项目等。迄今在Acta   Materialia、International   Journal of Plasticity、Nature Communications、Materials   Today、Advanced   materials、Wear、Tribology   International等国际权威期刊发表学术论文40余篇，并参与编写美国金属协会（ASM   International）手册一部。目前担任钢铁研究学报（中/英文版）及Materials   Research Letters（IF=9.6）青年编委。

/ 论 文

入职后

[1] Wenbin Zhang, Miao Jin, Shuo Hao, Mingshuai Huo, Zhenyi   Huang, Lei Chen*, Wenzhen Xia*. The interfacial damage of the   deformation heterogeneity in the transformation-induced plasticity   (TRIP)-assisted duplex stainless steel. International Journal of   Plasticity, 184 (2025): 104209.

[2] Fangyuan Wang, Beibei Lv, Qinglong Chen, Shaogang   Cui, Yongjian Wang, Hui Wang*, Min Song, Zhangwei Wang*, Wenzhen   Xia*. Grain-scale microtribological behavior of VCoNi medium-entropy   alloy. Tribology International, 203 (2025): 110412.

[3] Lulu Song*, Caixia Sun, Yongqiang Wang,   Zhenyi Huang, Yongpeng Zhao*, Shengling Yuan, Yahong Zhang, Wenzhen   Xia*. Structure and phase engineering afforded gradient manganese dioxide   composites for impedance matching toward electromagnetic wave absorption. Journal   of Colloid and Interface Science, 691 (2025):137445.

[4] Weijin Cai, Qiang Long, Shenghan Lu, Kang Wang*,   Junyang He, Shiteng Zhao, Zhiping Xiong, Jun Hu*, Wenzhen Xia,   Ian Baker, Kefu Gan, Min Song*, Zhangwei Wang*. Enhanced   strength-ductility synergy in medium entropy alloy via phase selective   precipitation. International Journal of Plasticity, 184 (2025):104204.

[5] Liuliu Han, Zhongji Sun*, Wenzhen Xia,   Shao‐Pu Tsai, Xukai   Zhang, Jing Rao, Pei Wang, Andrew Chun Yong Ngo, Zhiming Li, Yong Liu*,   Dierk Raabe. Thermodynamics‐guided high‐throughput discovery of eutectic high‐entropy alloys for rapid solidification. Advanced   Science. 11.31 (2024):2401559.

[6] Chang Liu*, Jing Rao, Zhongji Sun, Wenjun Lu,   James P Best, Xuehan Li, Wenzhen Xia, Yilun Gong, Ye Wei, Bozhao   Zhang, Jun Ding*, Ge Wu*, En Ma. Near-theoretical strength and   deformation stabilization achieved via grain boundary segregation and   nano-clustering of solutes. Nature Communications, 15.1 (2024): 9283.

[7] Lulu Song*, Caixia Sun, Yongqiang Wang,   Zhenyi Huang, Wenzhen Xia*. Effect of Cu doping on structure,   morphology, and microwave absorption performance of MnO₂. Journal   of Materials Science: Materials in Electronics, 35.19 (2024): 1354.

[8] Lulu Song, Xiangqian Wang, Yuping Duan*,   Yongqiang Wang, Zhenyi Huang, Wenzhen Xia*. Designing high-performance   microwave absorption materials through co-doping strategy: Experimental and   theoretical insights. Materials Research Bulletin, 173 (2024): 112679.

[9] Chao Yang, Xinren Chen, Wenzhen Xia, Jiaqi   Hu, Jingfan Zhang, Siyuan Zhang, Dengshan Zhou*, Wenjun Lu*, Da   Shu*, Deliang Zhang. Strong and stable ultrafine-grained Al-Mg alloys   via polymer-derived in situ nanoparticles. Materials Science and   Engineering: A, 915 (2024): 147298.

[10] Zhengyi Kong, Xiaofei Wang, Ningning Hu, Ya Jin,   Qinglin Tao, Wenzhen Xia, Xue-Mei Lin, George Vasdravellis. Mechanical   properties of SLM 316L stainless steel plate before and after exposure to   elevated temperature. Construction and Building Materials, 444 (2024):   137786.

[11] Wenzhen Xia*, Piyush Pramod Patil,   Chang Liu, Gerhard Dehm, Steffen Brinckmann*. A novel microwall sliding test   uncovering the origin of grain refined tribolayers. Acta Materialia,   246 (2023):118670.

[12] Shichao Zhu, Wenzhen Xia*, Hamidreza Kamali,   Linhan Ouyang, Lingling Xie*, Zhenyi Huang, Zhengyi Jiang*. Deep   learning-driven precision control of dilution rate in multi-pass laser   cladding: experiment and simulation. The International Journal of Advanced   Manufacturing Technology, 127.11-12 (2023): 5353-5371.

[13] Ge Wu*, Sida Liu, Qing Wang, Jing Rao, Wenzhen   Xia, Yong-Qiang Yan, Jürgen Eckert,   Chang Liu*, En Ma, Zhi-Wei Shan. Substantially enhanced homogeneous plastic   flow in hierarchically nanodomained amorphous alloys. Nature   Communications, 14.1 (2023): 3670.

[14] Chang Liu, Wenjun Lu, Wenzhen Xia, Chaowei   Du, Ziyuan Rao, James P. Best, Steffen Brinckmann, Jian Lu, Baptiste Gault,   Gerhard Dehm, Ge Wu*, Zhiming Li*, Dierk Raabe*. Massive interstitial solid   solution alloys achieve near-theoretical strength. Nature communications,   13.1 (2022): 1-9.

[15] Jun Wang, Yao Lu, Fanghui Jia, Wenzhen Xia,   Fei Lin, Jian Han, Ruichao Wang, Zengxi Pan, Huijun Li, Zhengyi Jiang.   Effects of inter-layer remelting frequency on the microstructure evolution   and mechanical properties of equimolar CoCrFeNiMn high entropy alloys during   in-situ powder-bed arc additive manufacturing (PBAAM) process. Journal of   Materials Science & Technology, 113 (2022): 90-104.

[16] Chang Liu*, Zhiming Li, Wenjun Lu, Yan Bao, Wenzhen   Xia, Xiaoxiang Wu, Huan Zhao, Baptiste Gault, Chenglong Liu, Michael   Herbig, Alfons Fischer, Gerhard Dehm, Ge Wu*, Dierk Raabe*. Reactive wear   protection through strong and deformable oxide nanocomposite surfaces. Nature   communications, 12.1 (2021): 1-8.

[17] Ge Wu, Chang Liu, Andrea Brognara, Matteo Ghidelli*,   Yan Bao, Sida Liu, Xiaoxiang Wu, Wenzhen Xia, Huan Zhao, Jing Rao,   Dirk Ponge, Vivek Devulapalli, Wenjun Lu*, Gerhard Dehm, Dierk Raabe*,   Zhiming Li*. Symbiotic crystal-glass alloys via dynamic chemical   partitioning. Materials Today, 51 (2021): 6-14.

入职前

[1] 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.

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

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

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

[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, 32.34 (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, 16.39 (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, 161 (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] 国家自然科学基金项目，微观摩擦条件下奥氏体不锈钢微观组织演变规律及机理，2023-01至2025-12,   主持；

[2] 英国正版365官方网站高层次人才科研启动项目，2021-03至2026-12，150万元，主持；

[3] 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；

[4] 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；

[5] 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；

[6] 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；

[7] 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；

[8] 台湾中钢项目，热轧钢板控轧与超快冷研究，参与；

[9] 内蒙古包头钢铁项目，重轨在线冷却研究，参与。

/ 教研项目

[1] 安徽省教学研究项目，先进材料与塑性加工未来科学家”国际学术论坛，主持。

[2] 安徽省教学研究项目，材料成型及控制工程专业改造提升，主持。

/ 奖励荣誉

[1] 安徽省青年人才，2023

[2] 安徽省科技厅科技项目评审专家，2022

[3] 安徽省“115”产业创新团队（成员），2021

[4] 马鞍山市“龙马”工程高层次人才，2021

[5] 澳大利亚伍伦贡大学优秀博士论文奖，2018。