教育经历
工作经历
指导学科
社会、学会及学术兼职中国兵工学会会员 美国科学促进会(AAAS)国际会员 英国皇家物理学会(IOP)会员 英国机械工程学会(IMechE)会员 美国矿物,金属和材料学会(TMS)会员 SCI期刊‘Materials’ 特刊编辑 SCI期刊‘Crystals’ 特刊编辑 出版专著和教材科研创新目前主持或作为主要研究人员参与高新工程、173项目、国家自然科学基金、叶企孙基金、江苏省自然科学基金、预研项目10余项,其中典型项目有:高XX研究(5100万),XX研究(4800万),XX研究(2400万),全XX技术(1400万),大XX技术(1290万),全XX研究(4500万)等。每年可支配科研经费300万元以上。 科研项目教学活动2017-至今 摩擦、磨损与润滑 博士课程 2016-至今 160228E3 工程材料及成形工艺【全英】主讲 江苏省精品全英文课程,教育部产学研同人课程 2012-2013 SESG1001: Mechanism of Solids Teaching Assistant University of southampton 发表论文Chuan Ting Wang, Yong He, Terence G. Langdon*, The significance of strain weakening and self-annealing in a superplastic Bi-Sn eutectic alloy processed by high-pressure torsion , Acta Materialia 185(2020)245-256 SCI C. T. Wang, Y. He*, C. Ji, Y. He, W. Han, X. C. Pan, Investigation on shock-induced reaction characteristics of a Zr-based metallic glass, Intermetallics (2018) 93: 383-388. SCI C. Ji, Y. He*, C. T. Wang, Y. He, X. C. Pan, J.J. Jiao, L. Gu,Investigation on shock-induced reaction characteristics of an AlNi composite processed via accumulative roll-bonding. Materials and Design (2017) 116:591-598. SCI C. T. Wang, T.J. Hakala, A. Laukkanen, H. Ronkainen, K. Holmberg, N. Gao, R. J.K. Wood, T.G. Langdon. An investigation on the effect of substrate to the load-bearing capacity of thin hard coatings. Journal of Materials Science (2016) 51(9), 4390-4398 SCI J. Xu, J. Li, C. T. Wang, D. Shan, B. Guo, T. G. Langdon. Evidence for an early softening behavior in pure copper processed by high-pressure torsion. Journal of Materials Science (2016) 51:1923–1930 SCI J. Li, J. Xu, C. T. Wang, D. B. Shan, B. Guo, T. G. Langdon. Microstructural Evolution and Micro-Compression in High-Purity Copper Processed by High-Pressure Torsion. Advanced Engineering Materials(2015) 18(2):241–250 SCI H. Shahmir, M.N. Ahmadabadi, C. T. Wang, J.M. Jung, H.S. Kim, T.G. Langdon. Annealing behavior and the shape memory effect in TiNi alloy processed by equal-channel angular pressing at room temperature. Materials Science and Engineering: A (2015) 629:16-22 SCI W. Xiong, X. Zhang, Y. Wu, Y. He, C. T. Wang, L. Guo. Influence of additives on microstructures, mechanical properties and shock-induced reaction characteristics of Al/Ni composites. Journal of Alloys and Compounds (2015) 648 : 540-549 SCI C. T. Wang, T.G. Langdon. Achieving superplasticity in a Bi-Sn alloy processed by high-pressure torsion. Letters on Materials (2015) 5:301-305 RSCI X. Wang, M. Nie, C. T. Wang, S.C. Wang, N. Gao. Microhardness and corrosion properties of hypoeutectic Al-7Si alloy processed by high-pressure torsion. Materials and Design (2015) 83:193-202. SCI H. Shahmir, M.N. Ahmadabadi, A. Razzagh, M. Mohammadi, C. T. Wang, J.M. Jung, H.S. Kim, T.G. Langdon. Using dilatometry to study martensitic stabilization and recrystallization kinetics in a severely deformed NiTi alloy. Journal of Materials Science (2015) 50:4003-4011. SCI H.Y. Zhang, C. T. Wang, Y.C. Wang, S. K. Li, H. Zou, T.G. Langdon. Microstructural evolution and microhardness variations in a Cu–36Zn–2Pb alloy processed by high-pressure torsion. Journal of Materials Science (2015) 50:1535–1543. SCI C. T. Wang, A.G. Fox and T.G. Langdon. Microstructural evaluation of ultrafine-grained titanium processed by high-pressure torsion under different pressures. Journal of Materials Science (2014) 49:6558–6564. SCI C. T. Wang and T.G. Langdon. Strain weakening and superplasticity in a Bi-Sn eutectic alloy processed by high-pressure torsion. Matereial Science and Technology (2014) 63, 012107. EI C. T. Wang, A.G. Fox and T.G. Langdon. An Investigation of Hardness Homogeneity and Microstructure in Pure Titanium Processed by High Pressure Torsion. Materials Science Forum (2014) 783-786, 2701-2706. X. Zhao, X. Yang, X. Liu, C. T. Wang, Y. Huang, T.G. Langdon. Processing of commercial purity titanium by ECAP using a 90 degrees die at room temperature. Materials Science and Engineering-A (2014) 607, 482-489. SCI M. Nie, C. T. Wang, M. Qu, N. Gao, J. A. Wharton and T.G. Langdon. The corrosion behaviour of commercial purity titanium processed by high-pressure torsion. Journal of Materials Science (2014) 49, 2824-2831. SCI C. T. Wang, N. Gao, M.G. Gee, R.J.K. Wood and T.G. Langdon. Tribology testing of ultrafine-grained Ti processed by high pressure torsion with subsequent coating. Journal of Materials Science (2013) 48, 4742-4748. SCI C. T. Wang, N. Gao, M.G. Gee, R.J.K. Wood and T.G. Langdon. Processing of an ultrafine-grained titanium by high pressure torsion: An evaluation of the wear properties with and without coating. Journal of Mechanical Behavior of Biomedical Materials (2013) 17, 166-175. SCI C. T. Wang, A. Escudeiro, T. Polcar, A. Cavaleiro, R.J.K. Wood, N. Gao and T.G. Langdon. Indentation and scratch testing of DLC-Zr coatings on ultrafine-grained titanium processed by high-pressure torsion. Wear (2013) 306, 304-310. SCI C. T. Wang, N. Gao, M.G. Gee, R.J.K. Wood and T.G. Langdon. Effect of grain size on the micro-tribological behaviour of pure titanium processed by high-pressure torsion. Wear (2012) 280-281, 28-35.(ScienceDirect统计本文为WEAR杂志2012年TOP25) SCI N. Gao, C. T. Wang, R.J.K. Wood and T.G. Langdon. Tribological properties of ultrafine-grained materials processed by severe plastic deformation. Journal of Materials Science (2012) 47, 4779–4797. SCI C. T. Wang, N. Gao, R.J.K. Wood and T.G. Langdon. Wear behavior of an aluminium alloy processed by equal-channel angular pressing. Journal of Materials Science (2011) 46(1): 123-130. SCI N. Gao, C. T. Wang, R.J.K. Wood and T.G. Langdon. Wear resistance of SPD-processed alloys. Materials Science Forum (2011) 667-669, 1095-1100. EI C. T. Wang, N. Gao, R.J.K. Wood and T.G. Langdon (2011) Wear behaviour of Al-1050 alloy processed by severe plastic deformation. Materials Science Forum, 667-669, 1101-1106. EI 指导学生情况本课题组招收具有各类工科背景的研究生,特别是兵器类、机械工程类专业背景的同学,欢迎报考 其他信息团队带头人为何勇教授(国务院特殊津贴),南京理工大学副校长。 本课题组指导梯队成员还有潘绪超副教授、何源副教授、焦俊杰副教授、郭磊副教授、方中副教授。 获奖、荣誉称号2023 国家级高层次青年人才 2023 教育部“黄大年”教师团队,成员 2022 江苏省青蓝工程优秀骨干教师 2015 江苏省双创人才计划 部级科技奖励一等奖1项2022,三等奖两项2021、2023 |
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