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副教授、副研究员
付俊伟
点击率:6556 编辑: 来源: 时间:2017-12-06

教师概况:   

 姓 名:

  付俊伟

 职 称:

    副教授

 职 务:

  教师

 所属系:

  金属材料系

 邮 箱:

 jwfu@hfut.edu.cn

 电 话:


个人简历:

付俊伟,男,博士,山东菏泽人。

2017/10-2018/10Brunel     University, Brunel Center for Advanced Solidification Technology, Academic     Visitor

2015/02-至今,人才引进至合肥工业大学,材料与科学工程学院,副教授

2013/09-2015/02,人才引进至北京科技大学,冶金与生态工程学院,副教授

2009/05-2013/09,中国科学院金属研究所,助理研究员

2005/09-2009/03,哈尔滨工业大学,材料与科学工程学院,工学博士

2003/09-2005/07,哈尔滨工业大学,材料与科学工程学院,工学硕士

1999/09-2003/07,合肥工业大学,材料与科学工程学院,工学学士

主要研究领域、方向:

1. 金属材料的微观组织与性能

2. 外场下合金凝固行为

3. 合金中第二相析出行为、取向关系等

研究成果(代表性成果):

国家自然科学基金通讯评审专家。正在主持国家自然科学面上项目1项;主持结题国家自然科学青年基金、国家重点实验室开放课题、博士后基金各1项。参与国家自然科学重点基1项、国家自然科学面上基金2项。

一直工作在第一线。目前以第一编辑在Corrosion Science, Journal of Crystal Growth,     Journal of Materials Research, Journal of Alloys and Compounds, Journal of Materials Processing     Technology, Materials Science and     Engineering A, Materials     Characterization, Materials     Letters, Materials Science and     Technology, Applied Physics A等国际著名期刊发表SCI英文论文20余篇。

目前为期刊《Insights     in Mining Science & Technology》的     Associate Editor。为国际期刊Journal of Materials     Research, Journal of Alloys and Compounds, Materials Letters, Materials     & Design, Applied Physics A, Journal of Materials Engineering and     Performance, IEEE Transactions on Magnetics, Progress in Natural Science:     Materials International, International Journal of Precision Engineering and     Manufacturing, 以及国内期刊物理学报, 无机化学学报等审稿。授权专利3项,申请专利3项。

承担科研项目:

1. 国家自然科学面上基金:铁素体不锈钢中TiN的凝固析出行为及性能控制研究 (主持No. 51571081)

2. 国家自然科学青年基金:奥氏体不锈钢凝固组织中铁素体形成机制及演化规律研究  (主持No. 51004095)

获奖情况:

1. 中国科学院接受国内高校博士访学奖 (2007)

2. 哈尔滨工业大学优秀毕业生 (2009)

3. 北京科技大学优秀毕业设计论文引导教师 (2014)

4. 合肥工业大学优秀毕业设计论文引导教师 (2016)

著作论文(代表作):


(1) J. W. Fu, F. Li, J. J.     Sun, Y. C. Wu. Texture, orientation, and mechanical properties of     Ti-stabilized Fe-17Cr ferritic stainless steel. Materials Science & Engineering A.2018, 738: 335-343.

(2) J. W. Fu, J. J. Sun, X.     Cen, X. M. Zhang, F. Li, Y. C. Wu. Growth behavior and orientation     relationships in AISI 304 stainless steel during directional     solidification. Materials Characterization.2018, 139: 241-248.

(3) J. W. Fu, Q. Q. Nie, W.     X. Qiu, J. J. Sun, Feng Li, Y. C. Wu. Orientation relationships and growth     mechanism of TiN in Fe-17Cr steel during solidification.Journal of Materials Processing Technology. 2018,     253: 43-50.

(4) J. W. Fu, Q. Q. Nie, W.     X. Qiu, J.Q. Liu, Y. C. Wu. Morphology, orientation relationships and     formation mechanism of TiN in Fe-17Cr steel during solidification. Materials     Characterization. 2017, 133: 176-184.

(5) J. W. Fu, W. X. Qiu, Q.     Q. Nie, Y. C. Wu. Precipitation of TiN during     solidification of AISI 439 stainless steel.Journal of Alloys and Compounds.     2017, 699: 938-946.

(6) J. W. Fu. Microstructure and corrosion     behavior of hot-rolled GCr15 bearing steel. Applied Physics A. 2016,     122(4):416.

(7) J. W. Fu, Y. S. Yang. Crystallography     and morphology of a lathy ferrite in Fe-Cr-Ni alloys during directional     solidification.Journal of     Materials Research. 2013, 28(15):2040-2046.

(8)J. W. Fu, Y. S. Yang. Origin of the lathy     ferrite in AISI 304 stainless steel during directional solidification. Journal of     Alloys and Compounds. 2013, 580:191-194.

(9) J. W. Fu, Y. S. Yang. Solidification     behavior in three-phase region of AISI 304 stainless steel. Materials     Letters. 2013, 93:18-20.

(10)J. W.     Fu,     Y. S. Yang. Orientational dependence of lathy     ferrite in Fe-Cr-Ni alloy during directional solidification. Materials     Letters. 2012, 81:177-180.

(11) J. W. Fu, Y. S. Yang. Effect of a     low-voltage pulsed magnetic field on the microstructure and mechanical     properties of AZ80 alloy. Journal of Iron and Steel Research, International.     2012, 19(1-1):256-259.

(12) J. W. Fu, Y. S. Yang. Microstructure     and mechanical properties of Mg-Al-Zn alloy under a low-voltage pulsed     magnetic field. Materials Letters. 2012, 67:252-255.

(13) J. W. Fu, Y. S. Yang. Formation     of the solidified microstructure of Mg-Al-Zn alloy under a low-voltage     pulsed magnetic field. Journal of Materials Research. 2011,     26(14):1688-1695.

(14) J. W. Fu, Y. S. Yang. Formation of the solidified microstructure in Mg-Sn     binary alloy. Journal of Crystal Growth. 2011, 322(1):84-90.

(15) J. W. Fu, Y. S. Yang, J.     J. Guo. Microstructure     selection of Fe-Cr-Ni alloy     during directional solidification. International Journal of Cast Metals Research.     2010, 23(2):119-123.

(16) J. W. Fu, Y. S. Yang, J. J. Guo, J. C. Ma, W. H. Tong. Formation of the two-phase coupled microstructure in Fe-Cr-Ni alloy during     directional solidification. Journal of Materials Research. 2009,     24(7):2385-2390.

(17) J. W. Fu, Y. S. Yang, J.     J. Guo. Formation     of a blocky ferrite in Fe-Cr-Ni during directional solidification. Journal of     Crystal Growth. 2009, 311(14):3661-3666.

(18) J. W. Fu, Y. S. Yang, J. J. Guo, J. C. Ma, W. H. Tong. Microstructure evolution in     AISI 304 stainless steel during near-rapid directional solidification.Materials     Science and Technology. 2009, 25(8):1013-1016.

(19) J. W. Fu, Y. S. Yang, J. J. Guo, J. C. Ma, W. H. Tong. Microstructure     formation in rapidly solidified AISI 304 stainless steel strip. Ironmaking     & Steelmaking. 2009, 36(3):230-233.

(20) J. W. Fu, Y. S. Yang, J. J. Guo, J. C. Ma, W. H. Tong. Formation of a     two-phase microstructure in Fe-Cr-Ni alloy during directional     solidification. Journal of Crystal Growth. 2008,     311(1):132-136.

(21) J. W. Fu, Y. S. Yang, J. J. Guo, W. H. Tong. Effect of cooling rate on the solidification microstructures in AISI     304 stainless steel.Materials     Science and Technology. 2008, 24 (8):941-944.

(22) X. G. Dong, J. W. Fu, J.     Wang, Y. S. Yang. Microstructure and tensile properties of as-cast and     as-aged Mg–6Al–4Zn alloys with Sn addition. Materials & Design. 2013, 51:567-574.

(23) J. Wang, J. W. Fu, X. G.     Dong, Y. S. Yang. Microstructure and mechanical properties     of as-cast Mg-Al-Sn-Y-Nd alloy.Materials &     Design. 2012, 36:432-437.

(24) Z. G. Xu, J. W. Fu, T. J. Luo,     Y. S. Yang. Effects of cell size on quasi-static compressive     properties of Mg alloy foam. Materials & Design. 2012, 34:40-44.

(25) Y. X. Wang, J. W. Fu, Y.     S. Yang. Effect of Nd addition on microstructures and mechanical     properties of AZ80 magnesium alloys. Transactions of Nonferrous Metals Society of China.     2012, 22(6):1322-1328.

(26) 董旭光, 付俊伟, 杨院生. AlZn对铸造Mg-5Sn合金微观组织及力学性能的影响. 金属学报. 2013, 49(5):621-628.

(27) 王亚霄, 付俊伟, 王晶, 罗天骄, 董旭光, 杨院生. BiAZ80镁合金凝固行为及显微组织的影响. 金属学报. 2011,     47(4):410-416.

(28) 杨院生, 付俊伟, 罗天骄, 汪彬, 冯小辉, 童文辉, 李应举.镁合金低压脉冲磁场晶粒细化. 中国有色金属学报. 2011, 21(10):2639-2649. (本人撰写)

(29) Y.     K. Li, X. D. Du, J. W. Fu, Y.     Zhang, Z. Zhang, S.A. Zhou, Y. C. Wu. Microstructure and mechanical     properties of Al-Si-Mg-Cu-Ti alloy with trace amount of Sc. Materials     Science and Technology. 2018, 34(10): 1265-1274.

(30) Y.     K. Li, X. D. Du, Y. Zhang, Z. Zhang, J. W. Fu, S. A. Zhou, Y. C. Wu. Influence     of Sc on microstructure and mechanical properties of Al-Si-Mg-Cu-Zr alloy. Applied     Physics A. 2018, 124:144.

(31) Y.     K. Li, X. D. Du, J. W. Fu, Y.     Zhang, Z. Zhang, S. A. Zhou, Y. C. Wu. Modification Mechanism and Growth     Process of Al3(Sc, Zr) Particles in As-cast Al-Si-Mg-Cu-Zr-Sc     Alloy. Archives     of Foundry Engineering. 2018, 18(2): 51-56.

(32) T. J. Luo, B. L. Shi, Q. Q. Duan, J. W. Fu, Y. S.Yang. Fatigue     behavior of friction stir spot welded AZ31 Mg alloy sheet joints. Transactions     of Nonferrous Metals Society of China. 2013, 7:1949-1956.

(33) J. X. Zhou, Y. S. Yang, W. H. Tong, J. Wang, J. W. Fu, B. Wang. Effect     of cooling rate on the solidified structure of Mg-Gd-Y-Zr alloy. Rare Metal Materials and Engineering. 2010, 39(11):1899-1902.

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