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王迎春

  

 

  姓    名: 王迎春

  学    位: 博士

  职    称: 副教授

  电    话: 010-68913937-801

  Email: wangyc@bit.edu.cn

  1. 个人先容

  2006年北京理工大学材料学专业获博士学位,2011年英国南安普顿大学工程学院访问学者。主要从事新型金属材料、金属基复合材料和大变形超细晶材料的制备与表征等研究工作。主持国家级科研项目5项,作为核心成员参与项目10余项。作为主要完成人获得国家技术发明二等奖1项,部级科学技术发明奖1项。授权发明专利10余项;发表学术论文50余篇,包括以通讯编辑或第一编辑在顶级期刊发表SCI论文30余篇;参编教材2部。主讲热处理原理及工艺,粉末冶金原理及工艺等课程。

  2. 研究领域

  金属材料,主要涉及高性能铝合金、钛合金和先进钢材料的制备与表征;

  金属基复合材料的制备与表征;

  大变形超细晶材料的制备与表征。

  3. 科研项目

  2017年以来主持的项目有国家自然科学基金,国家重点研发计划,军品配套,国防科技重点实验室基金等。

  4. 获奖情况

  国家技术发明二等奖1项(2010),部级科学技术发明奖1项(2009)

  5. 社会工作

  Materials Science and Engineering A, Journal of Alloy and compounds,Advanced Engineering Materials,  Journal of Materials Engineering and Performance,Transactions of Nonferrous Metals Society of China,International Journal of Materials Research,兵工学报,粉末冶金技术等期刊审稿人。

  6. 代表性学术论文(近10年):

  [1] Z. Li, Y.C Wang*, X.W.Cheng, J.Liang, S.K. Li.Compressive behavior of a Fe–Mn–Al–C lightweight steel at different strain rates. Mater. Sci. Eng. A, 772 ( 2020) 138700

  [2] Y.C.Wang*, M. A. Afifi, X.W.Cheng, S.K. Li,T.G Langdon. An Evaluation of the Microstructure and Microhardness in an Al–Zn–Mg Alloy Processed by ECAP and Post-ECAP Heat Treatments. Adv.Eng.Mater. 22, (2020) 1901040.

  [3] X.Ma, Y.C.Wang*, X.W.Cheng, C.Gao, Y.Wang, S.K. Li. Effect of tungsten content on dynamic compressive properties of borosilicate glass/tungsten composites at elevated temperatures. Mater.Sci. Eng. A 744 (2019) 604–609.

  [4] M.A.Afifi, Y.C.Wang*, X.W.Cheng, S.K.Li, T.G.Langdon. Strain rate dependence of compressive behavior in an Al-Zn-Mg alloy processed by ECAP. J. Alloys and Compd. 791 (2019) 1079-1087.

  [5] M.A.Afifi, Y.C.Wang*, P.R. Pereira, Y.Huang, Y.W.Wang X.W.Cheng, S.K.Li, T.G.Langdon. Mechanical properties of an Al-Zn-Mg alloy processed by ECAP and heat treatments. J. Alloys and Compd. 769 (2018) 631-639.

  [6] W. Guo, Y. C .Wang*, K.Liu, S.K.Li, H. Zhang. Effect of copper content on the dynamic compressive properties of fine grained tungsten copper alloys. Mater. Sci. Eng.727 (2018) 140-147.

  [7] M. A.Afifi, Y.C.Wang*, P.R. Pereira, Y. Huang, T.G. Langdon, Effect of heat treatments on the microstructures and tensile properties of an ultrafine-grained Al-Zn-Mg alloy processed by ECAP, J. Alloys and Compd. 749 (2018) 567-574.

  [8] M. A.Afifi, Y.C.Wang*, P.R. Pereira, Y.W. Wang, S.K.Li, Y. Huang, T.G. Langdon. Characterization of precipitates in an Al-Zn-Mg alloy processed by ECAP and subsequent annealing, Mater. Sci. Eng.A712 (2018) 146-156.

  [9] C.Gao, Y.C.Wang*, X. Ma, K. Liu, Y.Wang, S.K. Li, X.W.Cheng. Preparation and Dynamic Mechanical Properties at Elevated Temperatures of a Tungsten/Glass Composite, J. Mater. Eng. Perform.27 (2018)1040-1046.

  [10] M. A. Afifi, Y.C.Wang*, P.R. Pereira, Y.W. Wang, S.K.Li, T.G. Langdon. Effect of ECAP processing on microstructure evolution and dynamic compressive behavior at different temperatures in an Al-Zn-Mg alloy, Mater. Sci. Eng.A 684 (2017) 617-625.

  [11] S.Zhang, Y.C.Wang*, A. P. Zhilyaev, E.Korznikova, S.K. Li, T.G. Langdon. Langdon. Effect of grain size on compressive behaviour of titanium at different strain rates. Mater. Sci. Eng.A 645 (2015) 311–317,

  [12] S.Zhang, Y.C.Wang*, A. P. Zhilyaev, S.K. Li, E.Korznikova, T.G. Langdon. Langdon.Temperature and strain rate dependence of microstructural evolution and dynamic mechanical behavior in nanocrystalline Ti. Mater. Sci. Eng.  A 641 (2015) 29-36.

  [13] S.Zhang, Y.C.Wang*, A. P. Zhilyaev, D.V.Gunderov, S.K. Li, E.Korznikova, T.G. Langdon. Effect of temperature on microstructural stabilization and mechanical properties in the dynamic testing of nanocrystalline pure Ti. Mater. Sci. Eng. A 634 (2015)64–70.

  [14] 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. J. Mater. Sci. 50 (2015)1535–1543.

  [15] L.Wang, Y.C. Wang*, A. P. Zhilyaev, A.V. Korznikov, S.K.Li, E.Korznikova, T.G. Langdon. Microstructure and texture evolution in ultrafine-grained pure Ti processed by equal-channel angular pressing with subsequent dynamic compression, Scripta. 77 (2014)33-36.

  [16] L.Wang, Y.C. Wang*, A. P. Zhilyaev, A.V. Korznikov, S.K.Li, E.Korznikova, T.G. Langdon. Dynamic compressive behavior of ultrafine-grained pure Ti at elevated temperatures after processing by ECAP. J . Mater. Sci. 49 (2014)6640–6647.

  [17] A. R. Niazi, S.K. Li, Y.C.Wang*.Parameters optimization of electroless deposition of Cu on Cr-coated diamond, Trans. Nonfer. Metals. Soc. China. 24 (2014) 136-145.

  [18] Y.C.Wang, T. G. Langdon. Effect of heat treatment on microstructure and microhardness evolution in a Ti–6Al–4V alloy processed by high-pressure torsion. J. Mater. Sci.48 (2013) 4646-4652.

  [19] Y.C. Wang, T. G. Langdon. Influence of phase volume fractions on the processing of a Ti–6Al–4V alloy by high-pressure torsion. Mater. Sci. Eng.A 559(2013)861-867.

  [20] Y.C. Wang*, D.P. Zhao, S.K. Li, J.X. Liu, F.C. Wang. The heat treatment effect on microstructure and dynamic mechanical properties of electroformed nanocrystalline Ni–W alloy. Mater. Sci. Eng. A547(2012) 104–109.

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