材料科学与工程学院

wumingfang

Professor

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wu_mingfang@163.com

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Introduction

Prof Mingfang Wu was born in 1962. He obtained his Doctor degree at Jiangsu University in 2011 and has been awarded as a Ph. D supervisor since 2013. His teaching and research area are focused on advanced welding technology and engineering. He has already taken charge of more than 10 projects, including 1 National Natural Science Foundation Project, 1 Natural Science Foundation of Jiangsu Province and several horizontal scientific research projects with enterprise. He has received the Second Prize of State Scientific and Technological Progress in 2016 and 3 provincial-level scientific and technological progress awards. He has published a great variety of academic papers, including 3 papers indexed by SCI and 5 papers indexed by EI. He has applied or attained 5 invention patents.

Research Focus

Brazing & Diffusion welding & Composite Welding

Arc Welding on Non-ferrous Metals and High Strength Steel

Education Background

June, 2011 Ph.D. in Materials Science, Jiangsu University, China

June, 2000 M.S. in Materials Science, Jiangsu University, China

June, 1980 B.S. in Welding Technology and Engineering, ZhenJiang Shipping College, China

Teaching

Modern Material Research Methods ，Welding Structure (for undergraduate students)

Strength, Toughness and Fracture of Metals (for postgraduate students)

- Projects
  
  Projects:
  [1] Study on diffusion mechanism of Ti (C, N) cermet and 40Cr steel by low temperature diffusion bonding added auxiliary electric pulse, National Natural Science Foundation of China (NO. 51175239), 2012.01-2015.12, Leader.
  [2] Study on interface reaction mechanism of Ti (C, N) and 40Cr by diffusion welding with assisted electrical pulse, Jiangsu Natural Science Foundation (NO. BK2011494), 2012.01-2015.12, Leader.
  [3] Study on matching process of new welding material and FCB welding,
  Enterprise commissioned development project, Project leader.
  [4] Study on welding process of DH40 steel with high strength and super heavy thickness, Study on welding technology of DH40 high strength steel super heavy plate, Enterprise commissioned development project, Project leader.
  [5] Study on welding technology of ASTM A517 GR Q (Modified) steel, Enterprise commissioned development project, Project leader.
  [6] Process study on improving toughness of EH40 welded joint by two-wire electrogas welding, Enterprise commissioned development project, Project leader.
  [7] Study on welding technology of special alloy steel used for liquid cargo containment system, Enterprise commissioned development project, Project leader.
  [8] Study on cold metal transfer (CMT) welding technology of 5000 series aluminum alloy and ship steel, Enterprise commissioned development project, Project leader.
  [9] Research and development of new silver based welding materials, Enterprise commissioned development project, Project leader.
- Publications
  
  [1] Wu M, Liu F, Wang F, et al. Interfacial reaction and strengthening mechanism of ceramic matrix composite joints using liquid phase diffusion bonding with auxiliary pulse current[J]. Acta Metallurgica Sinica, 2015, 51(9): 1129-1135.
  [2] Wu M, Liu F, Wang F, et al. Joint formation behavior and joint strength of Ti(C, N)-Al₂O₃ ceramic matrix composite bonded by liquid phase diffusion bonding with auxiliary pulse current[J]. Transactions of the China Welding Institution, 2015, 36(9): 1-4.
  [3] Wu M, Wang F, Hu Q, et.al. FEM simulation on residual stress distribution during diffusion bonding between Ti(C, N) metallic ceramic/interlayer/40Cr steel[J]. China Welding, 2014, (3): 48-52.
  [4] Wu M, Kuang H, Wang F, et.al. Partially transient liquid phase-diffusion bonding on Ti (C, N)-Al₂O₃ ceramic matrix composites using Zr/Cu/Zr as interlayer[J]. Acta Metallurgica Sinica, 2014, 50(5): 619-625.
  [5] Wu M, Wang F, Wang F, et al. Pulse current auxiliary liquid diffusion bonding between Ti (C, N)-Al₂O₃ CMC and 40Cr steel[J]. Transactions of the China Welding Institution, 2014, 35(6): 31-34.
  [6] Wu M, Lu X, Cen Y, et.al. FEM of welding stress in AH36 steel plate with different welding parameters[J]. Transactions of the China Welding Institution, 2012, 33(4): 25-28.
- Patents
  
  [1] Mingfang Wu, Dashuang Liu, Ping Wei. A kind of modified titanium high chromium cast iron self-shielded flux cored wire and its preparation method. Chinese Patent: CN106238964A, 2016-12-21.
  [2] Mingfang Wu, Dashuang Liu, Ping Wei. A kind of multiple boride doping modification hardfacing self-shielded flux cored wire and its preparation method. Chinese Patent: CN106141495A. 2016-11-23.
  [3] Mingfang Wu, Shujin Chen, Kai Qi, Ruifeng Li. A kind of automatic filling and single shaft of shoulder friction stir head. Chinese Patent: CN106001900A. 2016-10-12.
  [4] Mingfang Wu, Yang Zhou, Shujin Chen, Jingyu Xia, Ruiyang Ni, Haopeng Wang. A set of ring type and air-cooled biaxial shaft of shoulder friction stir device. Chinese Patent: CN106001900A. 2016-10-12.
  [5] Mingfang Wu, Shujin Chen, Jingyu Xia, Penghao Xia, Junrong Xia, Ruiyang Ni. A kind of composite sealing device and welding method of thin-walled aluminum alloy tube. Chinese Patent: CN104959727A. 2015-10-07.
  [6] Mingfang Wu, Shujin Chen, Yunkai Wu, Fei Wang. Based on local environmental temperature independent control for local weldment diffusion welding device and method. Chinese Patent: CN103028828A. 2013-04-10.
  [7] Mingfang Wu, Shujin Chen, Pinfei Zhao. Low temperature rapid diffusion welding equipment and welding method with pulse current auxiliary heating. Chinese Patent: CN102699520A. 2012-10-03.
- Awards
  
  [1] The "Development and application of harmless filler metal and high efficiency brazing" project was awarded the Second Prize of Scientific and Technological Progress in 2016 by the State Council of the people's Republic (Number Five).
  [2] The "Creation and application of environmentally friendly composite filler metals" project was awarded the First Prize of Scientific and Technological Progress in 2015 by the China machinery industry federation (Number Three).
  [3] The "high heat conductivity connection of Low temperature superconducting coil box" project was awarded the Second Prize of Scientific and Technological Progress in 2015 by Henan Province People's Government (Number Three).
  [4] The "Research and application on high efficiency and energy saving arc welding technology for ships" project was awarded the Second Prize of Scientific and Technological Progress in 2014 by Jiangsu Province People's Government (Number Four).
  [5] The "New technology and application of high efficiency and energy saving welding for ships" project was awarded the Second Prize of Scientific and Technological Progress in 2013 by Ministry of Education (Number Two).
  [6] The "Development and application on brazing technology and filler matals of ultra low temperature cooling pipe" project was awarded the Second Prize of State Scientific and Technological Progress in 2013 by the China machinery industry federation (Number Three).