1. Education And Work Experience
Ø Education Experience
l 2015-2022, Huazhong University of Science and Technology, Wuhan National Laboratory for Optoelectronics, Doctor of Philosophy
l 2011-2015, Wuhan University of Science and Technology, School of Materials and Metallurgy, Bachelor of Engineering
Ø Work Experience
l 2022-2024, Huazhong University of Science and Technology, Wuhan National Laboratory for Optoelectronics, Postdoctor Fellow
l 2024-Present, Shen Zhen Technology University, Sino-German College of Intelligent Manufacturing, Assistant Professor
2. Research Field And Achievements
Ø Project Experience
[1] Recipient of National Natural Science Foundation of China, CNY 300,000 (Grant No. 5240051812, Rank No.1, 01/2023-12/2026).
[2] Recipient of the Postdoctoral Fellowship Program of CPSF (the first session), CNY 360,000, (B-level Support, Rank No.1, 10/2023-09/2025);
[3] Recipient of Postdoctoral Science Foundation of China, CNY 80,000 (Grant No. 2023M731173, Rank No.1, 07/2023-12/2024);
[4] Recipient of Hubei Provincial Natural Science Foundation of China, CNY 50,000 (Grant No. 2023AFB327, Rank No.1, 07/2023-12/2025);
[5] Recipient of Postdoctoral Innovative Research Position Funding of Hubei Province of China, CNY 60,000 (Rank No.1, 09/2023-09/2025);
Ø Selected Publications
[1] Gong M, Zhang S, Lu Y, Wang D*, Gao M*. Effects of laser power on texture evolution and mechanical properties of laser-arc hybrid additive manufacturing. Add. Manuf., 2021, 46, 102210 (JCR1, IF: 10.3)
[2] Gong M, Meng Y, Zhang S, Zhang Y, Zeng X, Gao M*. Laser-arc hybrid additive manufacturing of stainless steel with beam oscillation. Add. Manuf., 2020, 33, 101180 (JCR1, IF: 10.3)
[3] Gong M, Zhang S, Lu Y, Jiang L, Liao W, Gao M. Achieving impressive strength and mitigated anisotropy in high-power laser-arc hybrid additive manufacturing of stainless steel through tailored microstructures composition. Mat. Sci. Eng. A-Struct., 2024, 894, 146204 (JCR1, IF: 6.1)
[4] Gong M, Lu Y, Zhao S, Zhang S, Wang D, Gao M. Fabricating exceptionally efficiency and mechanically superior entity through optimized deposition strategy in oscillating laser-arc hybrid additive manufacturing. Opt. Laser Technol., 2024, 179, 111372 (JCR1, IF: 4.6)
[5] Meng Y, Li J, Zhang S, Gao M, Gong M*, Chen H*. Wire arc additive manufacturing of Ni-Al intermetallic compounds through synchronous wire-powder feeding. J. Alloy. Compd., 2023, 943: 169172 (JCR1, IF: 5.8)
[6] Gao M, Cen L, Jiang L, Zhao S, Gong M*. Oscillating Laser-Arc Hybrid Additive Manufacturing of AZ31 Magnesium Alloy. Appl. Sci., 2023, 13, 897 (JCR1, IF: 2.5)
[7] Gong M, Kawahito Y, Li G, Gao M*, Zeng X. Stabilization effect of space constraint in narrow gap laser-arc hybrid welding analyzed by approximate entropy. Int. J. Adv. Manuf. Tech., 2017, 9-12(92): 3093-3102 (JCR2, IF: 2.9)
[8] Gong M, Kawahito Y, Gao M*, Zeng X. Weld characterization of laser arc hybrid welding of pure copper. Int. J. Adv. Manuf. Tech., 2017, 1-4(92): 561-567 (JCR2, IF: 2.9)
[9] Gong M, Gao M*, Zeng X. Preliminary study on laser-arc hybrid additive manufacturing of austenite stainless steel. In Proceeding: 36th International Congress on Applications of Lasers and Electro-Optics (ICALEO), Atlanta, USA, 2017
l 2022 15th National Laser Processing Academic Conference, the invited speaker.
3. Teaching
l Circuit analysis A;
l Precision shaping technology and equipment;
l Engineering Project;
l Undergraduate Graduation Design
