个人简介
教育简历: 1979年, 山东省荣成五中 ,高中毕业 1983年, 哈尔滨工业大学金属材料及热处理专业,学士毕业 1989年, 哈尔滨工业大学,免试直接攻读博士学位,博士毕业 工作简历: 1993.7-现在 教授 北京科技大学新金属材料国家重点实验室 2007.1-2007.2,高访教授 日本材料科学国际研究院燃料电池材料中心 2001.10-2002.11,高级访问学者 美国西弗吉尼亚大学 1996.9-1996.11,访问学者 俄罗斯科学院乌拉尔分院金属物理研究所 1990.12-1993.6,博士后研究人员 北京科技大学材料物理系
研究领域
1. 结构-功能金属间化合物 高Nb-TiAl 合金 Fe14Si2 合金 超高耐锌腐蚀金属间化合物 新型金属间化合物多孔材料 2. 高性能难变形材料的强加工和组织精确控制 3. 新型能源材料
近期论文
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[1] W.Y, Gui, Y.F. Liang, G.J Hao, J.P. Lin, D.Y. Sun, M.D. Liu, Chang Liu, H. Zhang. High Nb-TiAl-based porous composite with hierarchical micro-pore structure for high temperature applications. Journal of Alloys and Compounds , 2018, 744: 463-469.
[2] J. Ding, M.H. Zhang, T. Ye, Y.F. Liang, Y. Ren, C.L. Dong, J.P. Lin. Microstructure stability and micro-mechanical behavior of as-cast gamma-TiAl alloy during high-temperature low cycle fatigue. Acta Materialia , 2018, 145: 504-515.
[3] W.Y, Gui, J.P. Lin, G.J Hao, Y.H. Qu, Y.F. Liang H. Zhang. Electrolytic plasma processing-an innovative treatment for surface modification of 304 stainless steel. Scientific Reports , 2017, 7: 308-315.
[4] T. Ye, L. Song, S.B. Gao, Y.F. Liang, Y.L. Wang, J.P. Lin. Precipitation behavior of the ωo phase in an annealed high Nb-TiAl alloy. Journal of Alloys and Compounds , 2017, 701 (15): 882–891.
[5] W.Y. Gui, J.P Lin, G.J. Hao, Y.H. Qu, Z.P. Jiang, F Cheng, H Zhang. Effect of electrolytic plasma processing on the removal of surface scale for fe6.5si alloy. Chemistryselect , 2017, 2(3): 1158-1162.
[6] L.Yang, L.H. Chai, Y.F. Liang, J.P. Lin. Numerical simulation and experimental verification of gravity and centrifugal investment casting low pressure turbine blades for high Nb–TiAl alloy. Intermetallics , 2015, 66:149-155.
[7] Y.S. Wang, X.H. Sun, G.J. Hao, J.P. Lin . Fracture Morphology and Local Deformation Characteristics in the Metallic Glass Matrix Composite Under Tension. Metallurgical & Materials Transactions A , 2015:1-6.
[8] Z.Z. Shen, J.P. Lin, Y.F. Liang. A novel hot pack rolling of high Nb–TiAl sheet from cast ingot. Intermetallics , 2015, 67:19-25.
[9] Y.F. Liang, X.J. Xu, J.P. Lin. Advances in phase relationship for high Nb-containing TiAl alloys. Rare Metals , 2016, 35(1):15-25.
[10] Y.S. Wang, G.J. Hao, Y. Zhang, J.P. Lin. Effect of temperature on mechanical properties of Ti-based metallic glass matrix composite. Intermetallics , 2015, 67:121-126.
[11] S. Xu, X. Xu, Y. Xu, J. Lin. Phase transformations and phase equilibria of a Ti-46.5Al-16.5Nb alloy. Materials & Design , 2016, 101:88-94.
[12] F. Wang, J.P. Lin, Y.F Liang, J.P. Lin. Fabrication of nano-porous γ-Al2O3 layers on porous Ti-48Al-6Nb alloys. Materials & Design , 2016, 109:700-708.
[13] W.Y Gui, G.J Hao, Y.F. Liang, J.P. Lin . Surface Modification by Electrolytic Plasma Processing for High Nb-TiAl Alloys. Applied Surface Science , 2016, 389:1161-1168.
[14] T. Ye, L. Song, M.H. Quan, J.P. Lin. Phase transformations in Ti–34Al–13Nb alloy. Journal of Materials Science , 2016, 51(23):1-9.
[15] S.B. Gao, X.J. Xu, Z.Z. Shen, J.P. Lin. Microstructure and properties of forged plasma arc melted pilot ingot of Ti-45Al-8.5Nb-(W, B, Y) alloy. Materials Science & Engineering A , 2016, 677:89-96.
[16] X. Yang, X. Ding, G. Hao, et al . Cathodic Plasma Electrolysis Processing for Metal Coating Deposition. Plasma Chemistry & Plasma Processing , 2016, 37: 1-11.
[17] L. Fang, J.P. Lin, Y.F. Liang, J.P. Lin. Microstructural instability in surface layer of a high Nb-TiAl alloy processed by shot peening following high temperature exposure. Intermetallics , 2016, 78: 8-16.
[18] W.Y. Gui, J.P. Lin, G.J. Hao, J.P. Lin. Light-triggered drug release platform based on superhydrophobicity of mesoporous silica nanoparticles. Nanoscience and Nanotechnology Letters , 2016, 8(5): 428-433.
[19] J. Li, L. Huang, Y.F. Liang, J.P. Lin. Crystal structure and phase stability of AlSc in the near-equiatomic Al–Sc alloy. Journal of Alloys & Compounds , 2015, 618: 192-196.