Academic Degrees
PhD, 2005, School of Materials Science and Engineering, Huazhong University of Science and Technology, China;
Master, 1999, School of Materials Science and Engineering, Huazhong University of Science and Technology, China;
Bachelor, 1996, School of Materials Science and Engineering, Huazhong University of Science and Technology, China.
Professional Experience
Professor (2013-present); School of Materials Science and Engineering, Huazhong University of Science and Technology;
Associate professor (2005-2013); School of Materials Science and Engineering, Huazhong University of Science and Technology;
Visiting scholar (2008-2009); Southern Methodist University, America
Lecture (2001-2005); School of Materials Science and Engineering, Huazhong University of Science and Technology;
Selected Publications (last three years up to 2021)
1. Wang Chunming; Mi Gaoyang; Zhang Xiong*. Welding stability and fatigue performance of laser welded low alloy high strength steel with 20 mm thickness. Optics & Laser Technology 2021; 139: 106941.
2. Liu Bowen; Mi Gaoyang; Wang Chunming*. Research on grain refinement and wear behavior of micro-remelted Ta15 alloy surface by laser cleaning. Materials Chemistry and Physics 2021; 259: 124022.
3. Chen Lin; Mi Gaoyang; Zhang Xiong; Wang Chunming*. Effects of sinusoidal oscillating laser beam on weld formation, melt flow and grain structure during aluminum alloys lap welding. Journal of Materials Processing Technology 2021; 298: 117314.
4. Zhu Zhengwu; Ma Xiuquan; Jiang Ping; Mi Gaoyang; Wang Chunming*. Planar-cellular-dendritic transformation in the fusion zone of a GH909 superalloy weldment. Journal of Materials Research and Technology 2021; 10: 960-975.
5. Liu Bowen; Wang Chunming*; Mi Gaoyang. Simulation of the removal mechanism of thermo-oxidized layer and surface morphological evolution on TA15 alloy under nanosecond pulsed laser ablation by multiphase flow model. Journal of Manufacturing Processes 2021; 69: 69-83.
6. Liu Bowen; Mi Gaoyang; Wang Chunming*. Study on surface state and thermophysical properties of TA15 alloy by laser ablation. Journal of Manufacturing Processes 2021; 62: 483-490.
7. Li Yunkai; Wang Chunming*; Mi Gaoyang. Influence of cleaning modes on the microstructure and performance of 5083 alloy substrate. Journal of Mechanical Science and Technology 2021; 35: 3943-3949.
8. Zhu Zhengwu; Ma Xiuquan; Mi Gaoyang; Wang Chunming*. Electron microscopy study of laser welded GH909 superalloy joint. Journal of Materials Research and Technology 2020; 9: 15525-15536.
9. Zhang Xiong; Mi Gaoyang; Wang Chunming*. Microstructure and performance of hybrid laser-arc welded high-strength low alloy steel and austenitic stainless steel dissimilar joint. Optics & Laser Technology 2020; 122: 105878.
10. Liu Bowen; Mi Gaoyang; Wang Chunming*. Study on the morphology and microstructure of 5A06 alloy by high-pulse-frequency pulsed laser micro polishing. Materials Chemistry and Physics 2020; 255: 123500.
11. Li Li; Zheng Jianming; Wang Chunming*. Fatigue behavior improvements of laser-induction hybrid welded S690QL steel plates. Optics & Laser Technology 2020; 126: 106101.
12. Hu Chongjing; Mi Gaoyang; Wang Chunming*. Study on surface morphology and recast layer microstructure of medium thickness stainless steel sheets using high power laser cutting. Journal of Laser Applications 2020; 32: 022033.
13. Chen Lin; Mi Gaoyang; Zhang Xiong; Wang Chunming*. Comparative investigation on single laser beam and dual laser beam for lap welding of aluminum alloy. Journal of Laser Applications 2020; 32: 042012.
14. Shi Tianyi; Wang Chunming*; Mi Gaoyang; Yan Fei. A study of microstructure and mechanical properties of aluminum alloy using laser cleaning. Journal of Manufacturing Processes 2019; 42: 60-66.
15. Chen Lin; Mi Gaoyang; Zhang Xiong; Wang Chunming*. Numerical and experimental investigation on microstructure and residual stress of multi-pass hybrid laser-arc welded 316L steel. Materials & Design 2019; 168: 107653.
16.Li Li; Mi Gaoyang; Zhang Xiong; Xiong Lingda; Zhu Zhengwu; Wang Chunming*. The influence of induction pre-heating on microstructure and mechanical properties of S690QL steel joints by laser welding. Optics & Laser Technology 2019; 119: 105606.
17. Li Li; Mi Gaoyang; Wang Chunming*. A comparison between induction pre-heating and induction post-heating of laser-induction hybrid welding on S690QL steel. Journal of Manufacturing Processes 2019; 43: 276-291.
Awards:
2018 Science and Technology Progress Award in Hubei Province (First Prize)
2015 National Science and Technology Progress Award (First Prize)
2014 Science and Technology Progress Award in Hubei Province (Special Prize)
2014 Science and Technology Progress Award in CMIF (First Prize)
2006 Science and Technology Progress Award in AVIC I (Second Prize)
2004 & 2005 Teaching Quality Award in HUST (Second Prize)
2000 Science and Technology Progress Award in Ministry of Education (Third Prize)
Huazhong university of science and technology outstanding young faculty
Courses Taught
Laser Materials processing
Measurement and Test
Project
State Administration of Science, Technology and Industry for National Defense, The engineering sample of XXX project, 2021/01-2022/12
Science and Technology Planning Project of Guangdong Province, Process and equipment of high speed and high precision laser cutting using 10000-watt level fiber laser, 2017/01-2020/12.
Science and Technology Planning Project of Jiangsu Province, Research of key technology of 10000-watt level fiber laser with high optical quality and its industrial application, 2016/01-2019/12.
China Institute of Atomic Energy, Technical research of laser cutting of the stainless steel components, 2018/01-2019/12.
National Key Basic Research Program (973 program), Formation mechanism of thick-walled structure under the recombination action of laser-arc-magnetic, 2014/01-2018/12.
National Natural Science Foundation of China, Fundamental Research on high power laser welding of large and complicated structural components, 2014/01-2018/12.
National Natural Science Foundation of China, Mechanism and method of laser welding for zinc-coated steels in a gap-free lap joint configuration by using assistant gas to generate, 2014/01-2017/12.
Pre-research project of GAD during the 12th Five-Year Plan, Research of laser and its hybrid welding of low expansion super alloy, 2011/01-2015/12.
National Security Key Basic Research Program (National Defense 973 program), The relationship between shape of fusion area and mechanical properties of welded joint under the action of high energy density beam, 2007/01-2009/12.