个人简介
学习经历
1985.07 南京工学院(现东南大学)获学士学位
1997.09 日本爱知工业大学 获工学博士学位
工作经历
1985.07-1990.05 东南大学材料科学与工程系助教
1990.06-1998.04 东南大学材料科学与工程系讲师
其中:1993.11-1994.11 日本爱知工业大学访问研究员及国立名古屋工业技术研究所客座研究员
1996.09-1997.09 日本爱知工业大学访问学者
1998.04-2001.04 东南大学材料科学与工程系副教授
2001.04-2002.01 东南大学材料科学与工程系教授
其中:2001.05-2001.10 日本产业技术综合研究所 杰出访问学者(21世纪教育振兴计划项目)
2002.01-2004.01 日本产业技术综合研究所 日本学术振兴会外国人特别研究员
2004.03-2005.04 日本产业技术综合研究所 博士后研究员
2005.04-2009.08 河海大学材料科学与工程系(学院) 教研室(系)主任、教授、博导
2009.09-2013.01 河海大学力学与材料学院 系主任、教授、博导
其中:2010.12-2011.01 美国北卡州立大学高级访问学者
2013.02-2017.06 河海大学力学与材料学院 所长、教授、博导
2014.05 - 至今 宿迁市河海大学研究院 常务副院长
2017.06- 至今河海大学力学与材料学院 教授、博导
其中:2017.10-2017.11 美国特拉华大学高级访问学者
研究领域
长期从事材料制备、材料组织细化、微观组织与性能关系等方面的研究。科研方向主要是结合材料成分和微观组织设计、通过超细晶强化的手段提高金属的强度和塑性,同时研究大塑性变形金属的塑性变形机制;对超细晶粒金属在各种环境下的腐蚀行为进行评价,研发其表面防腐处理技术。实验研究的材料包括铝合金、镁合金、铜合金、钛合金和钢铁材料等。超细化的加工手段包括热挤压、热轧、等通道转角挤压(ECAP)和高压扭转(HPT)加工等。近年来,通过产学研合作进行了光伏新材料的研发,并涉足神经科学与人类精神健康探究。
近期论文
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Enhanced quasi-isotropic ductility in bi-textured AZ91 Mg alloy processed by up-scaled RD-ECAP processing[J]. Journal of Alloys and Compounds, 2019, 780:443e451
Charge compensation doping to improve the photocatalytic and photoelectrochemical activities of Ta3N5: A theoretical study[J]. Applied Catalysis B: Environmental,2019, 244:502–510
Theoretical study of the oxygen impurity doped Ta5N6[J].Computational Materials Science, 2018,143:368-373.
Simultaneously improving mechanical properties and corrosion resistance of pure Ti by continuous ECAP plus short-duration annealing[J]. Material Characrerization,2018,138:38-47
Chemical bonding and Cu diffusion at the Cu/Ta2N interface: a DFT study[J]. Physical chemistry chemical physics,2018,20(19):13566-13573
Effects of Mg-Zr codoping on the photoelectrochemical properties of a Ta3N5 semiconductor: a theoretical insight[J]. Journal of Materials Chemistry A, 2017,5(15):6966-6973
Effect of heat treatment and deformation temperature on the mechanical properties of ECAP processed ZK60 magnesium alloy [J]. Materials Science and Engineering A, 2016,677:125-132
Theoretical study on the surface stabilities, electronic structures and water adsorption behavior of the Ta3N5(110) surface[J]. Physical Chemistry Chemical Physics, 2016,18:7938-7945
Significantly improved corrosion resistance of heat-treated Mg-Al-Gd alloy containing profuse needle-like precipitates within grains [J]. Corrosion Science,2015,94: 171-178
Enhanced mechanical properties and rolling formability of fine-grained Mg-Gd-Zn-Zr alloy produced by equal-channel angular pressing[J].Journal of Alloys and Compounds, 2015, 643(5): 28-33
Superior mechanical properties of ZK60 mg alloy processed by equal channel angular pressing and rolling [J]. Materials Science and Engineering A, 2015,630:45-50
Effects of oxygen impurities and nitrogen vacancies on the surface properties of the Ta3N5 photocatalyst: a DFT study [J]. Physical chemistry chemical physics, 2015,17(35):23265-23272
Improved Corrosion Resistance in Simulated Concrete Pore Solution of Surface Nanocrystallized Rebar Fabricated by Wire-brushing [J]. Corrosion Science, 2014,82,437-441
Effect of multi-pass equal channel angular pressing on microstructure and mechanical properties of Mg97.1Zn1Gd1.8Zr0.1 alloy [J]. Materials Science & Engineering A, 2014, 594:330-333
Effect of ECAP combined cold working on mechanical properties and electrical conductivity of Conform-produced Cu-Mg alloys [J]. Journal of Alloys and Compounds, 2014, 582(5): 135-140.
Effects of Ba-O codoping on the photocatalytic activities of Ta3N5 photocatalyst: a DFT study[J]. RSC ADVANCES, 2014,4(98):55615-55621
Mechanical properties and precipitate behavior of Mg-9Al-1Zn alloy processed by equal-channel angular pressing and aging [J]. Journal of Alloys and Compounds,2014,594, 182-188
Sulphuric acid corrosion of ultrafine-grained mild steel processed by equal-channel angular pressing [J]. Corrosion Science, 2013, 75, 434-442.
Comparative Analysis for Corrosion Resistance of Micro-arc Oxidation Coatings on Coarse-grained and Ultra-fine Grained AZ91D Mg Alloy [J]. Surface and Coatings Technology, 2013, 216(15):259-266.
Optimizing the strength and ductility of AZ91 Mg alloy by ECAP and subsequent aging[J]. Materials Science & Engineering A, 2013, 588:329-334