Phone: +86-132-9651-2995


Academic Areas: Center of Rapid Manufacturing

Research Interests: Center of Rapid Manufacturing

Dr. Qingsong WEI, born in 1975, is engaged in the field of additive manufacturing, including the development of SLM, SLS, multi nozzle injection 3D printing equipments. The work focuses on basic research of 3D printing for the applications of the aerospace, mould, biomedical and other fields. In 2010, He was rewarded for the National Excellent Doctoral Dissertation nomination, and also won two second prize of HUBEI province. He has published more than 30 English academic papers (SCI) and more than 10 patents, and was the professional reviewer in several international academic journals. He has guided 10 students, including doctor and master students. He carried out a series of international cooperation with University of Birmingham in UK, Nanyang technological university in Singapore, University of Louisville in US. Dr. Qingsong WEI has also participated in many projects of China.

Academic Degrees

  1. Sep. 1995 -Jul. 1999, Bachelor in Huazhong University of Science and Technology (HUST, China), College of Materials Science & Engineering.
  2. Sep. 1999 - Jul.2002, Master in Huazhong University of Science and Technology, College of Materials Science & Engineering.
  3. Sep. 2002 - Jul. 2006, PhD in Huazhong University of Science and Technology, College of Materials Science & Engineering.
  4. Jul. 2008 -, Lecturer (2008), Associate Professor (2009), Professor (2014), Doctoral supervisor (2011)
  5. Mar.- Sep. 2013, Research and exchange of Exeter university (Founded by the Royal Academy of Engineering)

Selected Publications

  1. Wu Y, Xue PJ, Wei QS﹡, Huang J, Shi YS, Liu J. An integrated forming process for manufacturing Ti6Al4V impeller with a functional coating layer using hot isostatic pressing. Materials and Manufacturing Processes, 2015, 30(6):1-10.
  2. Li S, Wei QS﹡, Shi YS, Zhu ZC, Zhang DQ. Microstructure characteristics of Inconel 625 superalloy manufactured by selective laser melting. Journal of Materials Science and Technology, 2015, (4):
  3. Zhang S, Cheng X, Yao Y, Wei YH, Han CJ, Shi YS, Wei QS﹡, Zhang Z. Porous niobium coatings fabricated with selective laser melting on titanium substrates: preparation, characterization, and cell behaviour. Materials Science and Engineering C, 2015, 53(4):50-59.
  4. Wei QS﹡, Li S, Han CJ, Li W, Cheng LY, Hao L, Shi YS. Selective laser melting of stainless-steel/nano-hydroxyapatite composites for medical applications: microstructure, element distribution, crack and mechanical properties. Journal of Materials Processing Technology, 2015, 222(2): 444-456.
  5. Zhang S, YuShu DW, Liu BX, Sun B, Yan CZ, Hao L, Wei QS﹡, Shi YS. Effect of firing temperature on the metal to ceramic bond strength of a porcelain fused to metal restoration of a Co-Cr alloy by means of selective laser melting (SLM). Laser in Engineering, 2015, 31: 195-209.
  6. Wei QS﹡, Xue PJ, Liu GC, Lu H, Huang J, Shi YS. Simulation and verification of near-net shaping a complex-shaped turbine disc by hot isostatic pressing process. Int J Adv Manuf Technol, 2014, 74: 1667-1677.
  7. Zhang Z, Qu YY, Li XS, Zhang S, Wei QS, Shi YS, Chen LL. Electrophoretic deposition of tetracycline modified silk fibroin coatings for functionalization of titanium surfaces. Applied Surface Science, 2014, 303: 255-262.
  8. Zhang S, Wei QS﹡, Cheng LY, Li S, Shi YS. Effects of scan line spacing on pore characteristics and mechanical properties of porous Ti6Al4V implants fabricated by selective laser melting. Materials & Design, 2014, 643: 185-193.
  9. Liu K, Shi YS, Li CH, Hao L, Liu J, Wei QS. Indirect selective laser sintering of epoxy resin-Al2O3 ceramic powders combined with cold isostatic pressing. Ceramics International, 2014, 40: 7099-7106.
  10. Wen SF, Li S, Wei QS﹡, Yan CZ, Zhang S, Shi YS. Effect of molten pool boundaries on the mechanical properties of selective laser melting parts. Journal of Materials Processing technology, 2014, 214: 2660-2667.
  11. Zhang S, Li Y, Hao L, Wei QS﹡. Metal-ceramic bond mechanism of the Co-Cr alloy denture with original rough surface produced by selective laser melting. Chinese Journal of Mechanical Engineering, 2014, 27(1): 69-78.
  12. Liu K, Shi YS, He WT, Li CH, Wei QS, Liu J. Densification of alumina components via indirect selective laser sintering combined with isostatic pressing. The International Journal of Advanced Manufacturing Technology, 2013, 67(9-12): 2511-2519.
  13. He WT, Wei QS, Liu K, Shi Y S, Liu J. Numerical simulation of cold isostatic pressed alumina parts produced by selective laser sintering and part shape optimization. Ceramics International, 2013, 39: 9683-9690.
  14. Liu GC, Shi YS, Wei QS﹡, Wang JW, Li M. Thermal elasto-viscoplastic analysis based on Perzyna model for hot isostatic pressing of stainless steel powder. Materials Research Innovations, 2011,15(1):299-302.
  15. Wei QS﹡, Du YY, Q BB, Shi YS. Densification of porous stainless-steel SLS components during cold isostatic pressing. Journal of Engineering Materials and Technology, 2010, 132(1): 11-15.


  1. National Natural Science Foundation of China (Grant No. 51375189), 2014/01-2017/12, 800,000 RMB, Principal investigator.
  2. National Key Technologies R & D Program of China (Grant No. 2012BAF08B03), 2012/01-2014/12, 2000,000 RMB, Principal investigator.
  3. HUBEI province Key Technologies R & D Program of China (Grant No. 2014BAA017), 2015/01-2016/12, 300,000 RMB, Principal investigator.
  4. Science and technology morning plan of WUHAN (Grant No. a014072704011251), 2015/01-2016/12, 150,000 RMB, Principal investigator.
  5. Innovative Research Team in University of Ministry of Education of China (Grant No. IRT1244), 2012/01-2015/12, 3000,000 RMB, Participant.
  6. Scientific Research Foundation of Huazhong University of Science and Technology, 2014/04-2015/12, 500,000 RMB, Principal investigator.
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