教师名录

李伟

副教授
所属二级机构:相变与结构研究所
硕导/博导:硕导
通讯地址:东川路800号,买球官网入口A楼503B
电子邮箱:weilee@sjtu.edu.cn
办公电话:021-54745420
教育经历
  • 2000-09 ~ 2004-07    买球官网入口   材料科学与工程     本科
  • 2004-09 ~ 2007-07    买球官网入口   材料科学与工程   材料学  硕士
  • 2007-09 ~ 2011-07    伯明翰大学     冶金与材料  博士
工作经历
  • 2007-05 ~ 2007-08    宝日汽车板有限公司  无
  • 2012-02 ~ 至今    买球官网入口买球官网入口  无
研究方向
  • 先进钢强韧化设计
  • 高强钢的氢脆
研究情况

完成项目:

  • “不锈钢表面S 相形成机制和外场下稳定性规律研究” 国家自然基金青年基金(51201105)
  • 宝钢不锈钢项目“高塑性经济型双相不锈钢变形机理研究”
  • 汽车用高强钢氢致延迟断裂研究 HIMI-TMC

在研项目:

  • 国家重点研发计划课题(2016YFB0300601) 子课题 “高强度海洋工程用特厚钢板强韧化机理及性能均匀性控制技术研究”
  • 国家自然科学基金重点项目子课题“汽车用超高强度热成形钢氢脆与增韧机制”

学术/社会兼职
  • 海热处理学会  理事、副秘书长
  • 美国矿业金属与材料学会(TMS)  会员
论文信息
  • X. Zhu, W. Li*, H. Zhao, Q. Han, L. Wang, H. Jiao, X. Jin, Unveiling the Origin of Work Hardening Behavior in an Ultrafine-Grained Manganese Transformation-Induced Plasticity Steel by Hydrogen Investigation, Metallurgical and Materials Transactions A: , 47 (2016) 4362-4367.
  • H.S. Zhao, W. Li*, X. Zhu, X.H. Lu, L. Wang, S. Zhou, X.J. Jin, Quantitative assessment of retained austenite in quenching and partitioning treated multiphase steel, Materials Science and Technology, 32 (2016) 1619-1624.
  • X. Lu, W. Li*, H. Zhao, X. Jin, Local plastic indentation resistance of retained austenite in bearing steel, ISIJ International, 56 (2016) 851-854.
  • H.S. Zhao, W. Li*, X. Zhu, X.H. Lu, L. Wang, S. Zhou, X.J. Jin, Analysis of the relationship between retained austenite locations and the deformation behavior of quenching and partitioning treated steels, Materials Science and Engineering: A, 649 (2016) 18-26.
  • Y. Xu, Y. Nie, M. Wang, W. Li*, X. Jin, The effect of microstructure evolution on the mechanical properties of martensite ferritic steel during long-term aging, Acta Materialia, 131 (2017) 110-122.
  • L. Luo, W. Li*, L. Wang, S. Zhou, X. Jin, Tensile behaviors and deformation mechanism of a medium Mn-TRIP steel at different temperatures, Materials Science and Engineering: A, 682 (2017) 698-703.
  • H. Zhao, W. Li*, L. Wang, S. Zhou, X. Jin, The deformation behavior analysis and mechanical modeling of step/intercritical quenching and Partitioning-Treated Multiphase Steels, Metallurgical and Materials Transactions A:, 47 (2016) 3943-3955.
  • X.-H. Lu, W. Li*, C.-L. Wang, H.-S. Zhao, X.-J. Jin, Effects of Sub-zero Celsius Treatment and Tempering on the Stability of Retained Austenite in Bearing Steel, Acta Metallurgica Sinica (English Letters), 28 (2015) 787-792.
  • H.S. Zhao, X. Zhu, W. Li*, X.J. Jin, L. Wang, H. Jiao, D.M. Jiang, Austenite stability for quenching and partitioning treated steel revealed by colour tint-etching method, Materials Science and Technology, 30 (2014) 1008-1013.
  • Y. Xiao, W. Li*, H.S. Zhao, X.W. Lu, X.J. Jin, Investigation of carbon segregation during low temperature tempering in a medium carbon steel, Materials Characterization, 117 (2016) 84-90.
  • R. Wu, W. Li, S. Zhou, Y. Zhong, L. Wang, X. Jin, Effect of Retained Austenite on the Fracture Toughness of Quenching and Partitioning (Q&P)-Treated Sheet Steels, Metallurgical and Materials Transactions: A, 45 (2014) 1892-1902.
  • W. Li, X. Li, Y.L. Chiu, H. Dong, On the thermo-mechanical stability and oxidation behavior of carbon S-phase at elevated temperature and under tensile stress, Materials Science and Engineering: A, 600 (2014) 90-98.
  • W. Li, X. Li, H. Dong, Effect of tensile stress on the formation of S-phase during low-temperature plasma carburizing of 316L foil, Acta Materialia, 59 (2011) 5765-5774.
  • P. Zhou, W. Li*, Y. Li, X. Lu, X. Jin, J. Chen, Fabrication and Corrosion Performances of Pure Ni and Ni-Based Coatings Containing Rare Earth Element Ce and Graphene by Reverse Pulse Electrodeposition, Journal of the Electrochemical Society, 164 (2017) D75-D81.
  • X. Zhu, K. Zhang, W. Li*, X. Jin, Effect of retained austenite stability and morphology on the hydrogen embrittlement susceptibility in quenching and partitioning treated steels, Materials Science and Engineering: A, 658 (2016) 400-408.
  • N. Min, W. Li, H. Li, X. Jin, Atom Probe and M?ssbauer Spectroscopy Investigations of Cementite Dissolution in a Cold Drawn Eutectoid Steel, Journal of Materials Science & Technology, 26 (2010) 776-782.
  • N. Min, W. Li, X. Jin, α to γ transformation in the nanostructured surface layer of pearlitic steels near room temperature, Scripta Materialia, 59 (2008) 806-809.
  • Y. Li, W. Li*, J.C. Hu, H.M. Song, X.J. Jin, Compatible strain evolution in two phases due to epsilon martensite transformation in duplex TRIP-assisted stainless steels with high hydrogen embrittlement resistance, International Journal of Plasticity, 88 (2017) 53-69.
  • W. Li*, X. Zhu, J. Yao, X. Jin, X. Ding, Hydrogen traps and hydrogen induced cracking in 20CrMo steel, ISIJ International, 57 (2017) 170-175.
  • P. Zhou, W. Li*, X. Zhu, Y. Li, X. Jin, J. Chen, Graphene containing composite coatings as a protective coatings against hydrogen embrittlement in quenching & partitioning high strength steel, Journal of the Electrochemical Society, 163 (2016) 160-166.
  • X. Zhu, W. Li*, H. Zhao, L. Wang, X. Jin, Hydrogen trapping sites and hydrogen-induced cracking in high strength quenching & partitioning (Q&P) treated steel, International Journal of Hydrogen Energy, 39 (2014) 13031-13040.
  • X. Zhu, W. Li, H. Zhao, X. Jin, Effects of cryogenic and tempered treatment on the hydrogen embrittlement susceptibility of TRIP-780 steels, International Journal of Hydrogen Energy, 38 (2013) 10694-10703.
  • X. Zhu, W. Li*, T.Y. Hsu, S. Zhou, L. Wang, X. Jin, Improved resistance to hydrogen embrittlement in a high-strength steel by quenching-partitioning-tempering treatment, Scripta Materialia, 97 (2015) 21-24.
  • Y. Li, W. Li*, X. Zhu, H. Zhou, X. Jin, Mechanism of improved hydrogen embrittlement resistance of low-temperature plasma carburised stainless steel, Surface Engineering, (2016) 1-4.
  • W. Li, X. Zhu, C. Wang, X. Jin, Effect of S-phase on the Hydrogen Induced Phase Transition and Hydrogen Embrittlement Susceptibility in AISI 304 Stainless Steel, in: Materials Today: Proceedings, 2015, pp. S691-S695.
专利著作
  • 一种高强耐低温钢及其热处理工艺 (CN201510423279.9) 授权(排名第2)
  • 一种提高中厚板高强钢件强韧性的热处理方法(CN201510922977.3) 公开(排名第2)