安可林文章网新闻资讯
王慧远,粉里除单型男,博士,吉林应穿克鲜起市战困耐大学教授、博士生导师。国家杰出青年基金获得者,特聘吸宽英教授。
现任河北工业大学副校长。
- 中文名 王慧远
- 国籍 中国
- 主要成就 国家杰出青年科学基金;"奖励计划"特聘教授
- 职务 院长
- 性别 男
基本情况
职称: 教授 博士生导师
所在系别: 材料加工工程系
是否博导: 来自是
最高学历: 研究生
最高学位: 博士
教育经历
1994.09-1装汉击半998.08 原吉林工业大学材料科学与工程学院焊接工艺及设备专业 获学士学位 学士
1999.09-2002.03吉林大学材料科学与工程板点教且学院材料加工工程专业 获硕士学位 硕士
2002.04-2004.12吉林大学材料科学与工程学院材料加工工程专业 获博士学位 博士
教学科研
研究方向
所在学科专业: 材料加工工程
所研究方向:非平衡凝固与组织控制;强韧化与塑性变形;新型能源电池;第一性原理
讲授课程
本科生课程:《冶金原理》、《液态金属成型研究新进展》
硕士生课程:《晶体生长》和《材料研究专题与学科最新进展》
博士生课程:《金属材料设计与制备》
工作经历
2004年毕业于吉林大学获工学博士学位,学位论文获"2007年全国百篇优秀许子金停博士学位论文"(师从姜启川教授);
2005年按照吉林大学"青年学术骨干人才"引进学校,并被特评特聘为教授。
2006年入选教育部"新世纪优秀人才"支持计划;
200年边元7年获吉林省杰出青年基金,2007年入选第二批吉林省拔尖创新人才工程;
2008年获得吉林省第十批突出贡献中青年专业技术人才称号。
2009年被聘为博士生导师,同年担任材料科学诗罗尔传束家的始区径控与工程学院副院长,分管学院科研工作。作为项目负责人,完成国家自然基金面上项目2项,国家"863"计划项目1项;"新世纪优秀人才计划"项目1来自项、"全国百篇优秀论文作者专项基金"1项、吉林省杰出青年基金1项。申请发明专利9项,已授权7项。已发表SCI论文75篇;被SCI引用665次,SCI他引471次;单篇引用超过50次2篇、超过40次1篇。
2022年8月,任河北工业大学党委常委、副校长。
科研项目
[1] 国家自然科学基金(青年基金),"变质高硅镁合金非平衡凝固过程中Mg2Si生长形态的选择规律",批准360百科号:50501010,经费:28.00万元,运行日期:2006.1-2008.12,负责人:王慧远。
[2] 国家自然科学基金(面上),"熔体内金属间化合物的燃烧合成与非平衡凝固",批准号:50671044,经费:2使杨考起政8.00万元,运行日期:2士伤急觉无话厂它007.01-2009.12,负责人:王慧远。
[夜提必内烧3] 国家科技部"863"计划,"高性能喜手歌海海企输须林深引、低成本、可控陶瓷颗粒体积分数梯度增强金属基复合材期春工杆杆场料",批准号:2物名继006AA03Z566,经费:100.00万元,运行日期:2006.12-2009.11,负责人:王慧远。
[4] 教育部"新世纪优秀人才"计划,"铸造过程燃烧合成陶瓷颗粒梯度增强金属基复合材料的机制",批准号:NCET-06-0308,经费:25.00万元,运行日期:2007.01-20盾据大听紧陈益离兵含09.12,负责人:王慧远。
[5] 全国优秀博士学位论文作者专项资金,"镁-硅系合金中Mg2Si的变质机理",批准并打规刑胶五评间号:2007B38,经费:采随担42.00万元,运行日期:2008.1-2010.12,负责人:王慧远。
学术论文
[1] H.Y. Wang (王慧远), Q.C. Jiang, X.L. Li, J.G. Wang, "In situ synthesis of TiC/Mg composites in molten magnesium", Scripta Materialia, 2003; 48: 1349-1354.
[2] Q.C. Jiang, H.Y. Wang, Q.F. Guan, X.L. Li, "Effect of the temperature of mo所么束死情lten magnesium o烧身欢调接始走n the thermal explosion s许考浓危满啊兰营硫弦ynthesis reaction of Al-Ti-C system for fabricating TiC/Mg composite", Advanced Engineering Materials, 2003; 5: 722-725.
[3] H.Y. Wang, Q.C. Jiang, 余长价字正管起盐继管著X.L. Li, J.G. Wang, Q.F. Guan, H.Q. Liang, "In-situ synthesis of TiC fro终展吗m nanopow措依来微卫要超沉ders in a molten magnesium", Materials Research Bulletin, 2003; 38: 1387-1392.
[4] H.Y. Wang, Q.C. Jiang, Y.Q. Zhao, F. Zhao, B.X. Ma, Y. Wang, "Fabrication of TiB2 and TiB2-TiC particulate reinforced magnesium matrix composites", Materials Science and Engineering A, 2004; 372: 109-114.
[5] Q.C. Jiang, H.Y. Wang, J.G. Wang, P. Lu, Y. Wang, B.X. Ma, "Effect of TiB2 particulate on partial remelting behavior of Mg-11Al-0.5Zn matrix composite", Materials Science and Engineering A, 2004; 381: 224-230.
[6] H.Y. Wang, Q.C. Jiang, Y. Wang, B.X. Ma, F. Zhao, "Fabrication of TiB2 particulate reinforced magnesium matrix composites by powder metallurgy", Materials letters, 2004; 58: 3509-3513.
[7] H.Y. Wang, Q.C. Jiang, X.L. Li, F. Zhao, "Effect of Al content on the self-propagating high-temperature synthesis reaction of Al-Ti-C system in molten magnesium", Journal of Alloys and Compounds, 2004; 366: L9-L12.
[8] H.Y. Wang, Q.C. Jiang, Y.G. Zhao, F. Zhao, "In situ synthesis of TiB2/Mg composite by self-propagating high-temperature synthesis reaction of the Al-Ti-B system in molten magnesium", Journal of Alloys and Compounds, 2004; 379: L4-L7.
[9] H.Y. Wang, Q.C. Jiang, B.X. Ma, Y. Wang, F. Zhao, "Fabrication of steel matrix composite locally reinforced with in situ TiB2 particulate using self-propagating high-temperature synthesis reaction of Ni-Ti-B system during casting", Advanced Engineering Materials, 2005; 7: 58-63.
[10] H.Y. Wang, L. Huang, Q.C. Jiang, "In situ of TiB2-TiC particulates locally reinforced medium carbon steel matrix composites via the SHS reaction of Ni-Ti-B4C system during casting", Materials Science and Engineering A, 2005; 407: 98-104.
[11] Q.C. Jiang, H.Y. Wang, Y. Wang, B.X. Ma, J.G. Wang, "Modification of Mg2Si in Mg-Si alloys with yttrium", Materials Science and Engineering A, 2005; 392: 130-135.
[12] H.Y. Wang, Q.C. Jiang, B.X. Ma, Y. Wang, F. Zhao, "Reactive infiltration synthesis of TiB2-TiC particulates reinforced steel matrix composites", Journal of Alloys and Compounds, 2005; 391: 55-59.
[13] H.Y. Wang, F. Zhao, Q.C. Jiang, Y. Wang, B.X. Ma "Effect of Mg addition on the self-propagating high temperature synthesis reaction in Al-Ti-C system", Journal of Materials Science, 2005; 40: 1255-1257.
[14] H.Y. Wang, Q.C. Jiang, B.X. Ma, Y. Wang, J.G. Wang, J.B. Li, "Modification of Mg2Si in Mg–Si alloys with K2TiF6, KBF4 and KBF4+K2TiF6", Journal of Alloys and Compounds, 2005; 387: 105–108.
[15] Q.C. Jiang, H.Y. Wang, Y.G. Zhao, X.L. Li, "Solid-state reaction behavior of Al-Ti-C powder mixture compacts", Materials Research Bulletin, 2005; 40: 521-527.
[16] C.L. Xu, H.Y. Wang, C. Liu, Q.C. Jiang, "Growth of octahedral primary silicon in cast hypereutectic Al-Si alloys", Journal of Crystal Growth, 2006; 291: 540-547.
[17] L. Huang, H.Y. Wang, F. Qiu, Q.C. Jiang, "Synthesis of dense ceramic particulate reinforced composites from Ni-Ti-C, Ni-Ti-B, Ni-Ti-B4C and Ni-Ti-C-B systems via the SHS reaction, arc melting and suction casting", Materials Science and Engineering A, 2006; 422: 309-315.
[18] Y.F. Yang, H.Y. Wang, Y.H. Liang, Q.C. Jiang, Effect of nickel addition on the exothermic reaction of titanium and boron carbide, Journal of Materials Research, 2007; 22: 169-174.
[19] W.N. Zhang, H.Y. Wang, S.Q. Yin, Q.C. Jiang, "Effect of Ti/C ratio on the SHS reaction of Cr-Ti-C system", Materials Letters, 2007; 61: 3075-3078.
[20] H.Y. Wang, S.J. Lü, M. Zha, S.T. Li, C. Liu, Q.C. Jiang, "Influence of Cu addition on the self-propagating high-temperature synthesis of Ti5Si3 in Cu-Ti-Si system", Materials Chemistry and Physics, 2008; 111: 463-468.
[21] H.Y. Wang, W. Wang, M. Zha, N. Zheng, Z.H. Gu, D. Li, Q.C. Jiang, "Influence of the amount of KBF4 on the morphology of Mg2Si in Mg-5Si alloys", Materials Chemistry and Physics, 2008; 108: 353-358.
[22] Y.F. Yang, H.Y. Wang, R.Y. Zhao, Y.H. Liang, Q.C. Jiang, "Reaction mechanism Self-propagating high-temperature synthesis reaction in the Ni-Ti-B4C system", Journal of Materials Research, 2008; 23: 2519-2527.
[23] Y.F. Yang, H.Y. Wang, J.G. Wang, Q.C. Jiang, "Lattice parameter and stoichiometry of TiCx produced in alloyed Ti-C systems by self-propagating high-temperature synthesis", Journal of the American Ceramic Society, 2008; 91: 3813-3816.
[24] Y.F. Yang, H.Y. Wang, J. Zhang, R.Y. Zhao, Y.H. Liang, Q.C. Jiang, "The lattice parameter and stoichiometry of TiCx produced in the Ti-C and Ni-Ti-C systems by self-propagating high-temperature synthesis", Journal of the American Ceramic Society, 2008; 91: 2736-2739.
[25] H.Y. Wang, N. Zheng, W. Wang, Z.H. Gu, D. Li, Q.C. Jiang, "Modification of Mg2Si in Mg-4Si Alloys with B", ISIJ International, 2008; 48: 1662-1664.
[26] M. Zha, H.Y. Wang, S.T. Li, S.L. Li, Q.L. Guan, Q.C. Jiang, "Influence of Al addition on the products of self-propagating high-temperature synthesis of Al-Ti-Si system", Materials Chemistry and Physics, 2009; 114: 709-715.
[27] Y.F. Yang, H.Y. Wang, R.Y. Zhao, Q.C. Jiang, "Effect of reactant particle size on the self-propagating high-temperature synthesis reaction behaviors in the Ni-Ti-B4C system", Metallurgical and Materials Transactions A, 2009; 40: 232-239.
[28] M. Zha, H.Y. Wang, S.J. Lü, N. Zhang, D. Li, Q.C. Jiang, "Self–propagating high–temperature synthesis of Ti5Si3/TiAl3 intermetallics", ISIJ International, 2009; 49: 453-457.
[29] H.Y. Wang, M. Zha, B. Liu, D.M. Wang, Q.C. Jiang, "Microstructural evolution behavior of Mg–5Si–1Al alloy modified with Sr–Sb during isothermal heat treatment", Journal of Alloys and Compounds, 2009;480 (2): L25-L28.
[30] Q.L. Guan, H.Y. Wang, S.L. Li, C. Liu, Q.C. Jiang, "Microstructure characteristics of products in Ti–Si system via combustion synthesis reaction", Journal of Materials Science, 2009; 44 (7): 1902-1908.
[32] Y.F. Yang, H.Y. Wang, J.G. Wang, Q.C. Jiang, "Thermal explosion reaction in the Ti-C system under air atmosphere", Metallurgical and Materials Transactions A, 2009; 40: 2514-2518.
[33] H.Y. Wang, B. Liu, W. Xiao, L.L. Jiang, M. Zha, Q.C. Jiang, "Influence of morphology and size of Mg2Si on microstructural evolution of Mg-6.2Si alloys during partial remelting", IJIJ International, 2009; 49: 1932-1937.
[34] H.Y. Wang, M. Zha, S.J. Lü, C. Wang, Q.C. Jiang, "Reaction pathway and phase transitions in Al-Ti-Si system during differential thermal analysis", Solid State Sciences, 2010; 12: 1347-1351.
[35] H.Y. Wang, W.P. Si, S.L. Li, N. Zhang, Q.C. Jiang, "First-principles study of the structural and elastic properties of Ti5Si3 with substitutions Zr, V, Nb and Cr", Journal of Materials Research, 2010; 25 (12): 2317-2324.
所获荣誉
2006年入选教育部"新世纪优秀人才"支持计划;
2007年获吉林省杰出青年基金;
2007年获"全国百篇优秀博士学位论文"奖(师从姜启川教授);
2007年入选第二批吉林省拔尖创新人才工程;
2008年获得吉林省第十批突出贡献中青年专业技术人才称号;
2012年入选第三批(第二层次)吉林省拔尖创新人才工程;
2013年获吉林省自然科学一等奖(排名第二);
2014年获长白山学者特聘教授称号;
2014年获吉林省高级专家;
2016年获国家杰出青年基金;
2018年入选特聘教授。
治学格言
勤奋、认真、求实、创新