中国科学院长春应用化学研究所稀土资源利用国家重点实验室马贤锋

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姓    名:马贤锋       
性    别:男
职    务:       
职    称:研究员
通讯地址:吉林省长春市人民大街5625号
邮政编码:130022       
电子邮件:
简历：       
学习工作经历
1978-1982 就读吉林大学物理系获理学学士学位，1982-1985就读吉林大学研究生院获理学硕士学位，1990-1991赴日本大阪大学产业科学研究所进修，1997年中科院特批研究员，2001年晋升博士生导师。
研究领域：
轻合金及高性能复合材料
获奖及荣誉：
获国家教委科技进步二等奖1项、中科院科技进步三等奖1项、首届柳大纲优秀青年化学奖，2008年杭州市钱江人才特聘专家。研发的立方氮化硼获中国高技术博览会金奖、长春市发明一等奖、国家级新产品证书。
承担科研项目情况：       
钨铝合金及其复合材料
代表论著：
[1] H.G. Tang, X.F. Ma, W. Zhao, X.W. Yan, R.J. Hong, Preparation of W-Al alloys by mechanical alloying, J Alloy Compd, 347 (2002) 228-230.
[2] H.G. Tang, X.F. Ma, W. Zhao, X.W. Yan, J.M. Yan, Synthesis, reactive mechanism and thermal stability of W1-xAlxC (x=0.33, 0.5, 0.75, 0.86) nanocrystalline, Mater Res Bull, 39 (2004) 707-713.
[3] J.M. Yan, X.F. Ma, W. Zhao, H.G. Tang, C.J. Zhu, S.G. Cai, Crystal structure and carbon vacancy hardening of (W0.5Al0.5)C1-x prepared by a solid-state reaction, Chemphyschem, 6 (2005) 2099-2103.
[4] J.M. Yan, X.F. Ma, W. Zhao, H.G. Tang, C.J. Zhu, S.G. Cai, Synthesis and high-pressure sintering of (W0.5Al0.5)C, Mater Res Bull, 40 (2005) 701-707.
[5] J.M. Yan, X.F. Ma, W. Zhao, H.G. Tang, C.J. Zhu, S.G. Cai, Synthesis and characterization of (W0.8Al0.2)C-0.8 deduction solid solution, Mat Sci Eng B-Solid, 117 (2005) 321-324.
[6] C.J. Zhu, X.F. Ma, W. Zhao, H.G. Tang, J.M. Yan, S.G. Cai, Synthesis and thermal stability of Al75W25 alloy obtained by mechanically alloying, J Alloy Compd, 393 (2005) 248-251.
[7] S.G. Cai, X.F. Ma, H.G. Tang, W. Zhao, C.J. Zhu, J.M. Yan, Z.H. Qiao, B. Zhao, Processing, microstructure and mechanical properties of in situ Al-based metal matrix composite reinforced with 22 wt%WAI(12) particles, Adv Eng Mater, 8 (2006) 740-743.
[8] J.M. Yan, X.F. Ma, W. Zhao, H.G. Tang, C.J. Zhu, S.G. Cai, Crystallization and characterization of substoichiometric compound (W0.5Al0.5)C-0..5 obtained by solid-state reaction, Metall Mater Trans A, 37A (2006) 1692-1695.
[9] J.M. Yan, X.F. Ma, W. Zhao, H.G. Tang, C.J. Zhu, S.G. Cai, Preparation and characterization of a novel solid solution of aluminum in tungsten carbide by mechanically activated high-temperature reaction, J Mater Res, 21 (2006) 1700-1703.
[10] S.G. Cai, X.F. Ma, H.G. Tang, W. Zhao, J.M. Yan, B. Zhao, Z.H. Qiao, Preparation of W-Al-Mo ternary alloys by mechanical alloying, J Alloy Compd, 430 (2007) 77-80.
[11] Z.H. Qiao, X.F. Ma, W. Zhao, H.G. Tang, Crystal structure, mechanical properties and microstructure of (W1-xAlx)C with increased aluminum content, Adv Eng Mater, 9 (2007) 910-914.
[12] Z.H. Qiao, X.F. Ma, W. Zhao, H.G. Tang, S.G. Cai, B. Zhao, Fabrication, microstructure and mechanical properties of novel cemented hard alloy obtained by mechanical alloying and hot-pressing sintering, Mat Sci Eng a-Struct, 460 (2007) 46-49.
[13] Z.H. Qiao, X.F. Ma, W. Zhao, H.G. Tang, S.G. Cai, B. Zhao, A novel cemented hard alloy prepared by mechanical alloying and hot-pressing sintering, Adv Eng Mater, 9 (2007) 313-315.
[14] J.M. Yan, X.F. Ma, W. Zhao, H.G. Tang, C.J. Zhu, S.G. Cai, High-pressure sintering study of a novel hard material (W0.5Al0.5)C-0.5 without binder metal, Int J Refract Met H, 25 (2007) 62-66.
[15] B. Zhao, C.J. Zhu, X.F. Ma, W. Zhao, H.G. Tang, S.G. Cai, Z.H. Qiao, High strength Ni based composite reinforced by solid solution W(Al) obtained by powder metallurgy, Mat Sci Eng a-Struct, 456 (2007) 337-343.
[16] Z.H. Qiao, X.F. Ma, W. Zhao, H.G. Tang, Fabrication, thermal stability and mechanical properties of novel composite hardmetals obtained by solid-state reaction and hot-pressing sintering, Mater Chem Phys, 108 (2008) 364-368.
[17] Z.H. Qiao, X.F. Ma, W. Zhao, H.G. Tang, S.G. Cai, B. Zhao, A novel (W-Al)-C-Co composite cemented carbide prepared by mechanical alloying and hot-pressing sintering, Int J Refract Met H, 26 (2008) 251-255.
[18] Z.H. Qiao, X.F. Ma, W. Zhao, H.G. Tang, S.G. Cai, B. Zhao, Fabrication, thermal stability and mechanical properties of novel (W0.5Al0.5)C-0.8-Co composite prepared by mechanical alloying and hot-pressing sintering, J Alloy Compd, 456 (2008) 514-517.
[19] Z.H. Qiao, X.F. Ma, W. Zhao, H.G. Tang, J.M. Yan, S.G. Cai, B. Zhao, Bulk ultrafine binderless (W0.4Al0.6)C prepared by high pressure sintering, J Alloy Compd, 453 (2008) 382-385.
[20] Z.H. Qiao, X.F. Ma, W. Zhao, H.G. Tang, B. Zhao, Nanostructured novel cemented hard alloy obtained by mechanical alloying and hot-pressing sintering and its applications, J Alloy Compd, 462 (2008) 416-420.
[21] Z.H. Qiao, H.J. Wang, X.F. Ma, W. Zhao, H.G. Tang, Nanostructured bulk novel hard material with "rounded" grains obtained by nanocrystalline "rounded" (W0.5Al0.5)C powders, Mat Sci Eng a-Struct, 496 (2008) 507-511.
[22] J.W. Liu, X.F. Ma, H.G. Tang, W. Zhao, The research on the binder phase for the (W(0.5)Al(0.5))C(0.5) system, Int J Refract Met H, 29 (2011) 435-440.
[23] J.W. Liu, X.F. Ma, H.G. Tang, W. Zhao, Reactive sintering study of a novel cemented carbide hard alloy (W(0.5)Al(0.5))C(0.5)-Ni, J Alloy Compd, 509 (2011) 33-37.
[24] J.W. Liu, X.F. Ma, H.G. Tang, W. Zhao, Nanostructured Ni-bonded hard materials (W0.6Al0.4)C-0.5-Ni prepared by mechanical alloying and hot-pressing, Mat Sci Eng a-Struct, 532 (2012) 146-150.
[25] J.W. Liu, X.F. Ma, H.G. Tang, W. Zhao, Vacuum sintering of novel cemented carbide hard alloy (W0.4Al0.6)C-0.5-Co, Int J Refract Met H, 32 (2012) 7-10.