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林均品

主任:林均品

  

  林均品

  长江学者特聘教授

  国家973计划首席科学家

  新金属材料国家重点实验室主任

  

  地址:北京市海淀区学院路30号;邮编:100083

  电话:010-62332192

  传真:010-82375390

  Email: linjunpin@ustb.edu.cn

  办公室:主楼289A

  

  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

  

  研究兴趣:

  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

  

  承担的主要科研项目:

  1.     973计划: 首席科学家

  轻质高温TiAl金属间化合物合金及其制备加工的科学技术基础          2010-2015

  2.     国家自然科学基金: 负责人

  新型轻质高温γ1 + γ双相TiAl-Nb金属间化合物的强韧化机制            2013-2017

  3.     国家自然科学基金: 负责人

  新型高温高Nb-TiAl多孔材料的孔隙形成与相变交互作用机制            2012-2016

  

  先后负责承担了国家973计划1项、国家863计划课题2项、国家973计划子课题2项、国家自然科学基金7项、民口配套项目2项、军工平台建设项目1项等30多项国家课题。

  

  主要获奖和荣誉:

  1.新世纪优秀人才计划入选者

  2.国务院政府特殊津贴获得者

  3.中国有色金属工业科学技术二等奖,2012年

  4.教育部自然科学一等奖,2008年

  5.教育部自然科学一等奖,2001年

  6.冶金部科技进步二等奖,  1998年

  7.冶金部科技进步二等奖,  1996年

  8.国家教委科学技术进步二等奖, 1996年

  

  主要社会兼职:

  1.美国矿物、金属和材料学会(TMS)高温合金委员会 理事

  2.中国材料研究学会,理事

  3.中国材料研究学会金属间化合物与非晶合金委员会,副理事长

  4.教育部新型飞行器联合研究中心学术委员会,委员

  5.Journal Kovove Materialy-Metallic Material,编委

  6.Journal of the Korean Society for Heat Treatment, 编委

  7.<中国材料进展>, 编委

  

  组织国际学术会议:

  1. 共同主席:TMS- GAT-2017,Feb 26-March 2, San Diego, USA

  2. 主席:Gamma TiAl alloy Technology 2015, April 26-30, Nanjing, China

  3. 共同主席:Gamma TiAl alloys 2014, TMS, 2014, Feb. 17-20, San Diego, USA

  4. 共同主席:Materials for High-temperature Applications: Next Generation Superalloy and Beyond, TMS, 2014, Feb. 17-20, San Diego, USA

  5. 共同主席:Gamma (TiAl) Alloy Technology 2013, June 11-14, Toulouse, France

  6. 共同主席:举办了Gamma (TiAl) Alloy Technology 2012国际会议, Beijing, China, June 5-9.

  7. 作为国际会议执行委员会委员参入组织了The 12th World Conference on Titanium, June 19-24, 2011, Beijing, China 作为分会主席组织了其中Intermetallics and MMCs 分会

  8. 共同主席:举办了International Conference on Aerospace Materials中的Structrural Intermetallics分会, June 25-30, 2006, Beijing, China 作为分会主席组织了其中Intermetallics and MMCs 分会

  9. 共同主席:举办了International Conferenceon Aerospace Materials中的Structrural Intermetallics分会, June 25-30, 2006, Beijing, China

  

  

  国际会议分会主席:

  1. TMS- GAT-2017, Feb 26-March 2, San Diego, USA

  2. Gamma TiAl alloy Technology 2015, April 26-30, Nanjing, China

  3. Gamma TiAl alloys 2014, TMS, 2014, Feb. 17-20, San Diego, USA

  4. Materials for High-temperature Applications: Next Generation Superalloy and Beyond, TMS, 2014, Feb. 17-20, San Diego, USA

  5. Gamma (TiAl) Alloy Technology 2013, 2013, June 11-14, Toulouse, France

  6. Materials in Clean Power Systems VII: Clean Coal, Hydrogen Based Technologies, and Fuel Cells: Materials for Clean Coal Technologies, Turbines, TMS 2012, March 11-15, 2012, Orlando, Florida, USA

  7. The 12th World Conference on Titanium, June 19-24, 2011, Beijing, China

  8. Environmental Degradation and Protection of High Temperature Alloys: High Temperature Oxidation, MS&T09, October 25-29, 2009, Pittsburgh, Pennsylvania, USA

  9. Properties, The 11th World Conference on Titanium, June 3-7, 2007, Kyoto, Japan

  10. The 7th International Workshop on Advanced Intermetallics and Metallic Materials, May 18 to 23, 2008, Harbin, Heilongjiang, China

  

  组织国内会议:

  

  1. 会议主席: 2018第七届金属间化合物年会暨先进高温结构材料发展论坛,2018年5月18-21日,大连

  2. 会议主席: 第六届全国金属间化合物研讨会,2017年8月20-23日,新疆克拉玛依

  3. 学术委员会主任: 2016先进结构材料国际论坛及第五届金属间化合物会议, 2016年 10月10-13日,北京

  4. 会议主席: 第四届金属间化合物学术研讨会的会议,2015年11月27-30日  四川攀枝花

  5. 会议主席: 第三届金属间化合物学会学术研讨会(2014), 2014年8月17-21日, 宁夏省银川市

  6. 会议主席: 举办了中国材料大会2012中的高熵合金和特种高温材料分会,2014年7月4-7日, 四川成都

  7. 会议主席: 第二届金属间化合物学会学术研讨会(2013), 2013年7月3-7日, 黑龙江省黑河市

  8. 共同主席:2013年第十五届全国钛及钛合金学术交流会, 2013年12月8-12日,黑龙江省哈尔滨市

  9. 会议主席: 举办了中国材料大会2012中的TiAl合金及先进结构金属间化合物材料分会,2012 年7 月13-18 日山西,太原

  10. 会议主席: 作为学术委员会委员参入组织2011中国材料研讨会金属间化合物与高熵合金会议,2011年5月16-20日,北京国家会议中心

  

  发表的论文和著作(部分):

  

  著作

  [1] 陈国良院士论文选集-高铌含量钛铝金属间化合物合金部分

  科学出版社,2012年4月

  林均品、张来启、郝国建

  [2] 有序金属间化合物结构材料物理金属学基础

  冶金工业出版社,1999年10月

  陈国良,林均品

  [3] 金属间化合物结构材料

  国防工业出版社,2001年1月

  张永刚主编,主要写作者

  [4] 铌-高温应用

  冶金工业出版社,2005年

  编译委员会委员

  

  发表文章(部分)

  [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.

  [20] L. Song, X.J. Xu. L. You, J.P. Lin. B19 phase in Ti–45Al–8.5Nb–0.2W–0.2B–0.02Y alloy. Journal of Alloys & Compounds , 2015, 618: 305-310.

  [21] K.M. Pan, W. Liu, L.Q. Zhang, J.P. Lin. Deformation behavior of Mo5SiB2, at elevated temperatures. Materials Science & Engineering A , 2015, 623(623): 124-132.

  [22] S. Wang, Y.M. Jiang, Y.F. Liang, J.P. Lin. Magnetic properties and core loss behavior of Fe-6.5wt.%Si ribbons prepared by melt spinning. Advances in Materials Science & Engineering , 2015, 2015: 1-6.

  [23] L. Song, X.J. Xu, C. Peng, J.P. Lin. Deformation behaviour and 6H-LPSO structure formation at nanoindentation in lamellar high Nb containing TiAl alloy. Philosophical Magazine Letters , 2015, 95(2): 85-91.

  [24] H. Li, Y.F. Liang, W. Yang, J.P. Lin. Disordering induced work softening of Fe–6.5wt%Si alloy during warm deformation. Materials Science & Engineering A , 2015, 628: 262-268.

  [25] Z.Y. Zhang, Y.L. Wang, X.J. Xu, J.P. Lin. Synthesis and characterization of TiAl-based nanocomposites by a melt electromagnetic stirring process. Advanced Engineering Materials , 2015, 17(10): 1414-1419.

  [26] L. Song, C. Peng, X.J. Xu, J.P. Lin. ω0 phase precipitation in annealed high Nb containing TiAl alloys. Progress in Natural Science Materials International , 2015, 25(2): 147-152.

  [27] Z.Y. Zhang, X.J. Xu, Y.F. Liang, J.P. Lin. Formation mechanism of coarse grained zone in annealed high Nb–TiAl–xB ingots. Materials Science and Technology , 2016, 32(2): 119-125.

  [28] Y.S. Wang, G.J. Hao, R. Ma, J.P. Lin. Quasi-static and dynamic compression behaviors of metallic glass matrix composites. Intermetallics , 2015, 60:66-71.

  [29] L. Song, X.J. Xu, L. You, J.P. Lin. Ordered α2 to ω phase transformations in high Nb-containing TiAl alloys. Acta Materialia , 2015, 91: 330-339.

  [30] L. Yang, W.B. Kan, Y.W. Zhang, J.P. Lin. Effect of Si addition on the microstructure and room temperature tensile properties of high Nb-TiAl alloy. 金属学报 , 2015, 51(7): 859-865.

  [31] F. Wang, Y.F. Liang, S.L. Shang, J.P. Lin. Nb-Al diffusion reaction in high Nb containing TiAl porous alloys. Materials Science and Technology , 2015, 31(11): 1388-1391.

  [32] L.W. Zhang, J.P. Lin, J. He, J.P. Lin. Influence of thermal stabilization treatment on the subsequent microstructure development during directional solidification of a Ti-46Al-5Nb alloy. Intermetallics , 2015, 63: 67-72.

  [33] L. Yang, L.H. Chai, Y.L. Wang, J.P. Lin. Precipitates in high-Nb TiAl alloyed with Si. Materials Letters , 2015, 154: 8-11.

  [34] L.W. Zhang, J.P. Lin, X.F. Ding. Crystal orientation control in TiAl-Nb alloys through a double directional solidification process. Journal of Alloys & Compounds , 2016, 656: 720-728.

  [35] F. Wang, Y.F. Liang, S. Shang, J.P. Lin. Phase transformation in Ti-48Al-6Nb porous alloys and its influence on pore properties. Materials & Design , 2015, 83: 508-513.

  [36] L. Fang, J.P. Lin, X.F. Ding. Thermal cycling induced microstructural instability in fully lamellar Ti-45Al-8.5Nb-(W, B, Y) alloys. Materials Chemistry & Physics , 2015, 167: 112-118.

  [37] Y. S. Wang, G. J. Hao, Y. Zhang, J. P. Lin and J. W. Qiao. Fabrication and mechanical characterization of Ti-based metallic glass matrix composites by the bridgman solidification. Metallurgical and Materials Transactions A , 2014, 45: 2357-2362.

  [38] L. Song, X. J. Xu, L. You, Y. F. Liang, J. P. Lin. Phase transformation and decomposition mechanisms of the ω phase in cast high Nb containing TiAl alloy. Journal of Alloys and Compounds , 2014, 616: 483-491.

  [39] L. Song, X.J. Xu, J. Sun, J.P. Lin. Cooling rate effects on the microstructure evolution in the βo zones of cast Ti-45Al-8.5Nb-(W, B, Y) alloy. Materials Characterizatio n , 2014, 93:62-67.

  [40] Y. S. Wang, G. J. Hao, Y. Zhang, J. P. Lin, L. Song, J. W. Qiao. The role of the interface in a Ti-based metallic glass matrix composite with in situ dendrite reinforcement. Surface and Interface Analysis , 2014, 46: 293-296.

  [41] Y. S. Wang, G. J. Hao, Y. Zhang, J. P. Lin, J. W. Jiao. High strain rate compressive behavior of Ti-based metallic glass matrix composites. Intermetallics , 2014, 52: 138-143.

  [42] Y. F. Liang, F. Yang, L.Q. Zhang, J. P. Lin, S. L. Shang, Z. K. Liu. Reaction behavior and pore formation mechanism of TiAl-Nb porous alloys prepared by elemental powder metallurgy. Intermetallics , 2014, 44: 1-7.

  [43] Y. Zhang, M. Li, Y. D. Wang, J. P. Lin, Karin A. Dahmen, Z. L. Wang and Peter K. Liaw, Superelasticity and serration behavior in small-sized NiMnGa alloys. Advanced Engineering Materials , 2014, 16: 955-960.

  [44] J. P. Lin, X. J. Xu, L. Q. Zhang, Y. F. Liang, Y. Xu, G. J. Hao. Alloy design concepts for wrought high temperature TiAl alloys. TMS2014 , Gamma TiAl Alloys 2014 , Feb.16-20, San Diego, California, USA, p.108.

  [45] X. J. Xu, J. P. Lin, Y. F. Liang, L. Q. Zhang. Recent development and optimization of forging process of high Nb-TiAl alloy. TMS2014 , Gamma TiAl Alloys 2014,Feb.16-20, San Diego, California, USA, p.197.

  [46] Y. F. Liang, Z. Z. Shen, L. Q. Zhang, G. J. Hao, J. P. He, J. P. Lin. Manufacturing and Properties of high Nb-TiAl Sheet Materials. TMS2014 , Gamma TiAl Alloys 2014 ,Feb.16-20, San Diego, California, USA, p.130.

  [47] L. Fang, X. F. Ding, J. P. He, L. Q. Zhang, Z. Lin, J. P. Lin. Microstructure instability of fully lamellar TiAl alloy containing high content of Nb after long-term thermal cycling. Trans. Nonferrous Met. Soc. China , 2014, 24: 3095-3102.

  [48] L. Song, L. Q. Zhang, X. J. Xu, J. Sun and J. P. Lin. Omega phase in as-cast high-Nb-containing TiAl alloy. Scripta Materialia , 2013, 68:929-932.

  [49] F. Yang, M. Tane, J. P. Lin, Y. H. Song, H. Nakajima. Pore formation and compressive deformation in porous TiAl–Nb alloys containing directional pores. Materials and Design , 2013, 49: 755-760.

  [50] H. Z. Cao, D. H. Lu, J. P. Lin, Q. Ye, J. J. Wu, G. Q. Zheng. Novel Sb-doped ruthenium oxide electrode with ordered nanotube structure and its electrocatalytic activity toward chlorine evolution. Electrochimica Acta , 2013, 91: 234-239.

  [51] F. Yang, L. Q. Zhang, J. P. Lin, Y. F. Liang, Y. H. He, S. L. Shang, Z. K. Liu. Pore structure and gas permeability of high Nb-containing TiAl porous alloys by elemental powder metallurgy for microfiltration application. Intermetallics , 2013, 33: 2-7.

  

  国际会议特邀报告(部分)

  1. J.P. Lin, TMS- GAT-2017, Feb 26-March 2, San Diego, USA

  2. J.P. Lin, Gamma TiAl alloy Technology 2015, April 26-30, Nanjing, China

  3. J.P. Lin, Gamma TiAl alloys 2014, TMS, 2014, Feb. 17-20, San Diego, USA

  4. J.P. Lin, 2013 Fall Conference of the Korean Institute of Metals and Materials, Korea

  5. J.P. Lin, Gamma (TiAl) Alloy Technology 2012, 2012, June 5-9, Beijing, China.

  6. J.P. Lin, The 12th World Conference on Titanium (Ti-2011) June 19-24, 2011, The national Convention Center, Beijing, China ( Keynote).

  7. J.P. Lin, David Pope Honorary Symposium on Fundamentals of Deformation and Fracture of Advanced Metallic Materials: Deformation, Fracture, and Advanced Characterization Techniques, TMS 2011. February 27 - March 3, 2011 • San Diego Convention Center, San Diego, California USA.

  8.  J.P. Lin, The 8th International Workshop on Advanced Intermetallic and Metallic Materials. May 10-13, 2011, Changsha, Hunan, China.

  9.  J.P. Lin, International Conference on Advanced High-Temperature and High-Strength Structural Materials (HTHSSM), Hong Kong Polytechnic University, from October 4-8, 2009, Hong Kong, China.

  10. J.P. Lin, Environmental Degradation and Protection of High Temperature Alloy Symposium MST 09, October 25-29, 2009, Pittsburgh, Pennsylvania, USA.

  11. J.P. Lin, The 7th International Workshop on Advanced Intermetallics and Metallic Materials, May 18 to 23, 2008, Harbin, Heilongjiang, China.