Introduction

Huajun Zhang, Ph.D., researcher and doctoral supervisor of Intelligent Welding and Precision Manufacturing Institute, Shanghai Jiao Tong University. Mainly engaged in robot welding, grinding and polishing, intelligent additive manufacturing, mobile robots research and application. He was selected as the Science and Technology Innovation Talents of the National Ministry of Transport, the Outstanding Technology leader of Shanghai, the Leading talents of Chongming District of Shanghai, the Qiming Talent Plan of Shanghai, the Outstanding talents of Chunshen Pyramid of Minhang District of Shanghai, the first batch of science and technology expert database of Shanghai. He undertook more than 30 provincial and ministerial projects, published more than 80 papers. He has authored 6 books and more than 100 patents. He has won more than 10 provincial and ministerial awards, 1 first prize of Shanghai Science and Technology Award, special prize of China National University, etc. He has incubated intelligent welding robot, intelligent manufacturing and other achievement transformation companies, established a joint research and development center. More than 5000 centiare R&d test site locate in Zero Bay Science and Technology Innovation Park.

Biographical Information

• Education

2005-03 - 2009-04 Harbin Institute of Technology, Ph. D.

• Professional Appointments

2004-04 - 2009-06 School of Materials Science and Engineering, Harbin University of Science and Technology, Associate Professor and Master Tutor

2009-04 - 2011-06 Shanghai Jiao Tong University and Shanghai Zhenhua Port Machinery Company Limited Joint Training, Post-doctoral

2011-06 - 2014-10 Shanghai Zhenhua Port Machinery Company Limited, Welding Research Institute, Director

2014-10 - 2020-10 Changxing Branch of Shanghai Zhenhua Port Machinery Company Limited, Chief Technologist and Professor-level Senior Engineer

2014-10 - 2020-10 Shanghai Marine Equipment Intelligent Welding Manufacturing Engineering Technology, Research Center, Director

Professional Memberships

• 2019 Transactions of Intelligent Welding Manufacturing TIWW, Associate Editor
• 2016 Shanghai Welding Association, Vice President
• 2018 China Water Transport Construction Industry Association, Committeeman
• 2010 Robot Special Committee of Welding Society of Chinese Mechanical Engineering Society, Committeeman
• 2012 China Welding Association, Committeeman
• 2018 Shanghai Welding Society, Committeeman
• 2011 Robot Branch of Chinese Association of Automation, Committeeman
• 2015 National Welding Industry Alliance, Committeeman
• 2015 Editorial board of journal of Shipbuilding Technology

Research Interests

•  Intelligent robot welding
•  Intelligent welding manufacturing engineering
•  Robotic grinding and polishing
•  Hybrid additive and subtractive manufacturing

Selected Publications

• 1st author. Effects of arc distance on angular distortion by asymmetrical double sided arc welding. Science and Technology of Welding & Joining,2007,12(6):564~571. (SCI:214TL, IF:1.43, Cited 2)
• 1st author. Numerical simulation of three dimension stress field in double-sided double arc multipass welding process. Materials Science and Engineering-A.2009,499(15):309~314 (SCI:383VW, IF:1.86)
• 1st author. The realization of low stress and non-angular distortion by double-sided double arc welding. Journal of Manufacturing Science and Engineering. 2009.131(4):1-6. (SCI, IF:0.74)
• 3rd author. Effect of laser texturing on the microstructure and textures of 1050 aluminum alloy. Journal of Materials Engineering and Performance. 2009.7.doi: 10.1007/s11665 -009-9517-4 (SCI)
• 1st author. Control of root pass stress by two-sided arc welding for thick plate of high strength steel. Rev.Adv.Mater.Sci. 2013, 33(1): 298-304 (SCI, IF:0.9)
• 1st author. Fundamental studies on in-process controlling angular distortion in asymmetrical double-sided double arc welding. J. of Mater. Proc. Tech..2008,205(26):214~223 (SCI:326EG, IF:1.106, Cited 1)
• H.J. Zhang, C.B. Cai, Z.S. Yu and S.B. Chen. Formation mechanism of transverse crack in repair welding for thick plate of high-strength steel. China Welding.2012.21: 273-277
• 1st author. Distributions character and formation mechanism of transverse crack in repair welding for thick plate of high-strength steel. 2nd Advanced Welding and Joining Technology Conference (AWJTC).2011,1:32. (ISTP\EI)
• 2nd author. Effects of arc distance on temperature field and molten pool during double-sided arc welding. China Welding.2009, 4(EI:20091912077040)
• 1st author. Control of root pass stress by two-sided arc welding for thick plate of high strength steel. ICPNS2010.11. (ISTP\EI)
• 1st author. Three dimension Simulation analysis of the interpass stress and deformation during multipass welding. China Welding. 2008.17(2):27~34 (EI：083211445673)
• 1st author. Robot path planning in multi-pass weaving welding for thick plate. Lecture Notes in Electrical Engineering. 2011.88：87-95. (ISTP\EI)
• 1st author. Numerical simulation of three dimension stress field in double-sided double arc multipass welding process..ICPNS2007. (ISTP：383VW EI：10404363)
• 1st author. Coordinated motion of different weld robots based on user coordinates. Lecture Notes in Electrical Engineering. 2011.88:351-359. (ISTP\EI)

Research Projects

• National Development and Reform Commission major project: intelligent welding workshop for offshore drilling platform equipment manufacturing, 2012-2015 (Development and reform office high technology [2012] 2144)
• Made in China 2025 project of the Ministry of industry and information technology of the people's Republic of China: application of new intelligent manufacturing mode for large offshore engineering lifting equipment, 2017-2019 (Department of Industry and information Technology joint regulation [2017] 53)
• National 863 plan: development and engineering demonstration of micro nano sensor monitoring system for large crane, 2012-2015 (SS2013AA041106)
• National Natural Science Foundation of China: Research on cold cracking mechanism and predictive control of double sided double arc high efficiency welding of thick plate high strength steel, 2012-2014 (51105252)
• Shanghai excellent technical leader talent plan: research and application of key technologies for intelligent welding manufacturing of large steel structure of marine equipment, 2020-2023 (20XD1432700)
• Key technical transformation project in Shanghai: construction project of intelligent manufacturing workshop for automatic terminal crane box, 2016-2019 (2016-3-115-6)
• Shanghai Scientific and technological achievements industrialization project: Research on manufacturing process optimization for marine industry and key technologies of segmented intelligent welding manufacturing for main structure of port crane, 2016-2019 (16DZ1120200)
• National Postdoctoral Science Foundation of China: Research on off-line programming and seam tracking technology of thick plate robot multi pass welding, 2009-2011 (20090460616)
• Shanghai Science and Technology Star Program: high efficiency intelligent welding manufacturing technology for offshore drilling platform leg robot, 2013-2015 (13QB1404200)
• National Key Laboratory of modern welding Foundation: Research on new method of double sided double arc welding of low alloy high strength steel thick plate, 2006-2008 (200601)
• Major equipment development project of Shanghai Municipal Commission of economy and information technology: key technology and production line of segmented robot welding of Changqiao box, 2015-2017 (ZB-ZBYZ-01-14-1704)
• Platform construction project of Shanghai Science and Technology Commission: Shanghai marine engineering equipment high efficiency intelligent welding manufacturing engineering technology research center, 2012-2014 (12DZ2250600)
• Platform construction project of Shanghai Science and Technology Commission: Shanghai offshore equipment intelligent welding manufacturing engineering technology research center, 2017-2019 (12DZ2250600-2)
• Key technology and capability platform development of integration of design and manufacturing of large port machinery components, 2016-2020 (17DZ1101400)
• Key technology and application of digital control in large crane box manufacturing workshop, 2016-2020 (17DZ1101100)
• Key technology and R & D of painting for large box robots of port machinery, 2018-2020
• Major scientific and technological breakthrough in Shanghai: intelligent welding production line for large crane box beam structure, 2014-2016 (14111104000)
• Shanghai Science and technology research project: robot intelligent welding technology and application of large complex box girder steel structure, 2015-2017
• Major equipment development project of Shanghai Municipal Commission of economy and information technology: automatic welding production line of offshore platform leg robot, 2014-2015 (ZB-ZBYZ-01-13-2540)
• Key technology and flexible production line of robot welding for key parts of offshore wind power installation vessel, 2011-2014 (11111100300)

Honors & Awards

• 2018 "Young Innovative Talents of the Ministry of Transport"
• 2020 Shanghai Outstanding Technology Leader
• 2020 Selected as the leading talents of Shanghai Chongming District
• 2018 Recommended as the leading young innovation talent of the Ministry of Science and Technology by the SASAC
• 2013 "Shanghai Qiming Talent Program"
• 2019 Joined the database of Shanghai Science and Technology Experts
• 2018 Industry and informatization shortage talent "Smart factory planning and smart manufacturing capability maturity evaluation"
• Shanghai Science and Technology award 1 first prize and 2 third prizes
• China Communications Construction Group award 1 grand prize and 1 first prize and 1 second prize
• China Quality Association Science and Technology award 1 second prize