EDUCATION 2004 PhD, Materials Science and Engineering, Southeast University, Nanjing, China 2000 Masters, Materials Science and Engineering, Southeast University, Nanjing, China 1997 BSc Materials Science and Engineering, Southeast University, Nanjing, China
RESEARCH EXPERIENCE 2012 - Present, Professor School of Materials Science and Engineering Southeast University, Nanjing, China 2016.8-2016.9, Visiting Professor School of Mechanical Engineering The University of Adelaide, Australia 2013.7-2013.8, Visiting Professor School of Mechanical Engineering The University of Adelaide, Australia 2005 - 2012, Associate Professor School of Materials Science and Engineering Southeast University, Nanjing, China 2008.8-2009.9 Visiting Scholar Department of Materials Science and Engineering University of Illinois at Urbana-Champaign, USA 2005.8-2008.2 Postdoctoral Fellow Jiangyin Xingcheng Special Steel Works Co. LTD, China 2004 - 2005, Lecturer Department of Materials Science and Engineering Southeast University, Nanjing, China
GRANT AND AWARDS 1) 2018 Young Leading Talents in Science and Technology of Jiangsu Province 2) 2015 Six Talent Peaks Project of Jiangsu Province 3) 2017 Jiangsu Provincial Science & Technology Award - First prize Project: Manufacturing and Industrialization of Ultrahigh strength steel wire 4) 2015 Jiangsu Provincial Science & Technology Award - Second prize Project: Research and Manufacturing of high Purity Gallium 5) 2013 Jiangsu Provincial Science & Technology Award - Third prize Project: Development of Rare Earth Super-hard High Speed Steel 6) 2005 Jiangsu Provincial Science & Technology Award - Second prize Project: Deformation and application of mild carbon steel wire 7) 2003 Jiangsu Provincial Science & Technology Award - First prize Project: 1860MPa PC strand produced by little billet continuous casting and rolling
TEACHING INTERESTS Metal Material Science; Corrosion and Protection of Materials; Reinforcement Technology of Steel; Fabrication Technology of Modern Material RESEARCH INTERESTS 1) Deformation and strengthening mechanisms of metal structure materials, including pearlitic steel, high speed steel, high entropy alloys, copper alloys 2) Super-hard thin films 3) Photocatalytic thin film and coatings 4)Finite element modelling of material behaviors PART-TIME ACADEMIC JOB Editorial Board Member of Journal of Iron and Steel Research International Editorial Board Member of Journal of Iron and Steel Research, International (Chinese) Consultant of Sha Steel Research Institute Consultant of Bao-steel Metal Research Center
PUBLICATIONS (Selected) 1)L.C. Zhou, F. Fang*, L.F. Wang, H.Q. Chen, Z.H. Xie, J.Q. Jiang. Torsion delamination and recrystallized cementite of heavy drawing pearlite wires after low temperature annealing. Mater. Sci. Eng. A, 2018, 713: 52~60 2)W.Y. Huo, H. Zhou, F. Fang*, X.F. Zhou, Z.H. Xie, J.Q. Jiang. Microstructure and properties of novel CoCrFeNiTax eutectic high-entropy alloys, J. Alloy. Compd., 2018, 735: 897~904 3)W.Y. Huo, X.D. Liu, S.Y. Tan, F. Fang*, Z.H. Xie, J.K. Shang, J.Q. Jiang. Ultrahigh hardness and high electrical resistivity in nano-twinned, nanocrystalline high-entropy alloy films. Appl. Surf. Sci., 2018, 439: 222~225 4)L.C. Zhou, L.F. Wang, H.Q. Chen, Z.H. Xie, F. Fang*. Effects of Chromium Additions upon Microstructure and Mechanical Properties of Cold Drawn Pearlitic St eel Wires. J. Mater. Eng. Perform., 2018,27: 3619-3628 5)P.B. Ji, L.C. Zhou, X.F. Zhou, F. Fang*, J.Q. Jiang. Study on anisotropic mechanical properties of cold drawn pearlitic steel wire. Acta. Metall. Sin., 2018, 54: 494-500 6)F. Fang*, L.P. Wang, L.C. Zhou, X.G. Min, J.Q. Jiang. Application of texture inheritance on manufacturing ultra-high strengthpearlitic steel wire, Mater. Sci. Tech-Lond, 2018,34: 766-771 7)W.Y. Huo, F. Fang*, H. Zhou, Z.H. Xie, J.K. Shang, J.Q. Jiang. Remarkable strength of CoCrFeNi high-entropy alloy wires at cryogenic and elevated temperatures, Scr. Mater., 2017, 141: 125~128 8)W.Y. Huo, H. Zhou, F. Fang*, X.F. Zhou, Z.H. Xie, J.Q. Jiang. Microstructure and mechanical properties of CoCrFeNiZrx eutectic high-entropy alloys, Mater. Des., 2017, 134: 226~233 9)W.Y. Huo, H. Zhou, F. Fang*, X.J. Hu, Z.H. Xie, J.Q. Jiang. Strain-rate effect upon the tensile behavior of CoCrFeNi high-entropy alloys. Mater. Sci. Eng. A, 2017, 689: 366~369 10)L.C. Zhou, F. Fang*, X. Zhou, Y. Tu, Z.H. Xie, J. Jiang. Cementite nano-crystallization in cold drawn pearlitic wires instigated by low temperature annealing. Scr. Mater., 2016, 120: 5-8 11)F. Fang*, L. Zhou, X. Hu, X. Zhou, Y. Tu, Z. Xie, J. Jiang. Microstructure and mechanical properties of cold-drawn pearlitic wires affect by inherited texture. Mater. Des., 2015,79: 60-67 12)F. Fang*, Y.Y. Zhang, X.Q. Wu, Q.Y. Shao, Z.H. Xie. Electrical and optical properties of nitrogen doped SnO2 thin films deposited on flexible substrates by magnetron sputtering. Mater. Res. Bull., 2015, 68: 240-244 13)F. Fang*,X. Hu,L. Zhou,Z. Xie,J. Jiang. Effect of vanadium on microstructure and property of pearlitic steel wire.Mater. Res. Innov., 2015, 19(s8): 394-396 14)F. Fang*, Y.F. Zhao, L.C. Zhou, X.J. Hu, Z.H. Xie, J.Q. Jiang. Texture inheritance of cold drawn pearlite steel wires after austenitization. Mater. Sci. Eng. A, 2014, 618: 505-510 15)F. Fang*, Y.F. Zhao, P.P. Liu, L.C. Zhou, X.J. Hu, Z.H. Xie. Deformation of Cementite in Cold Drawn Pearlitic Steel Wire. Mater. Sci. Eng. A, 2014, 608: 11-15 16)F. Fang*, X.J. Hu, B.M. Zhang, Z.H. Xie, J.Q. Jiang. Deformation of dual-structure medium carbon steel in cold drawing. Mater. Sci. Eng. A, 2013, 583: 78-83 17)X. H. Ding, F. Fang*, J.Q. Jiang. Electrical and optical properties of N-doped SnO2 thin films prepared by magnetron sputtering.Surf. Coat. Tech., 2013, 231: 67-70 18)X.J. Hu, L. Wang, F. Fang*, Z.Q. Ma, Z.H. Xie, J.Q. Jiang. Origin and mechanism of torsion fracture in cold-drawn pearlitic steel wires. J. Mater. Sci., 2013, 48: 5528-5535 19)X. J. Hu, B. M. Zhang, S. H. Chen, F. Fang*, J. Jiang. Oxide Scale Growth on High Carbon Steel at High Temperatures. J.Iron Steel Res. Int., 2013, 20: 47-52 20)Z. Li, M. Paul, Z. T. Jiang, X. L. Zhao, J. Xu, J.Q. Jiang, F. Fang*, Z. Xie*. Designing superhard, self-toughening CrAlN coatings through grain boundary engineering. Acta Mater., 2012, 60: 5735-5744 21)F. Fang*, X.J. Hu, S. H. Chen, Z. H. Xie, J. Q. Jiang. Revealing microstructural and mechanical characteristics of cold-drawn pearlitic steel wires undergoing simulated galvanization treatment. Mater. Sci. Eng. A, 2012, 547(6): 51-54 22)F. Fang*, Q. Li, J. K. Shang. Enhanced visible-light absorption from Ag2O nanoparticles in nitrogen-doped TiO2 thin films. Surf. Coat. Tech., 2011, 205: 2919-2923 23)X. Y. Mao, D. Y. Li, F. Fang, J. Q. Jiang*. Application of a simple surface nano-crystallization process to a Cu-30Ni alloy for enhanced resistances to wear and corrosive wear. Wear, 2011, 271: 1224-1230 24)S. Y. Tan, X. Zhang, X. J. Wu, F. Fang, J. Q. Jiang*. Comparison study on structure of Si and Cu doping CrN films by reactive sputtering. Appl. Surf. Sci., 2011, 257: 5595-5600 25)S. Y. Tan, X. Zhang, X. J. Wu, F. Fang, J. Q. Jiang*. Effect of substrate bias and temperature on magnetron sputtered CrSiN films.Appl. Surf. Sci., 2011, 257: 1850-1853 26)S. Y. Tan, X. Zhang, X. Wu, F. Fang, J. Jiang*. Comparison of chromium nitride coatings deposited by DC and RF magnetron sputtering. Thin Solid Films, 2011, 519: 2116-2120 27)S. Y. Tan, X. Zhang, X. Wu, F. Fang, J. Q. Jiang*. Effect of copper content and substrate bias on structure and mechanical properties of reactive sputtered CrCuN films. J. Alloy. Compd., 2011, 509: 789-793 28)F. Fang*, J. H. Jiang, S. Y. Tan, A. B. Ma, J. Q. Jiang*. Characteristics of a fast low-temperature zinc phosphating coating accelerated by an ECO-friendly hydroxylamine sulfate. Surf. Coat. Tech., 2010, 204: 2381-2385 29)X. F. Zhou, F. Fang, J. Q. Jiang*. Morphology and Properties of M2C Eutectic Carbides in AISI M2 Steel.ISIJ INT.,2010,50:1151-1157 30)X. Y. Mao, D. Y. Li, F. Fang, J. Q. Jiang*. A simple technique of nanocrystallizing metallic surfaces for enhanced resistances to mechanical and electrochemical attacks. Mater. Sci. Eng. A, 2010, 527: 2875-2880 |
