Study on the modulated oscillation laser welding and temperature field simulation of magnesium alloys

ZHANG Mingjun; DUAN Wei; WANG Rui; WANG Hailong; GUO Jing; LI Heqing; PANG Xiaobing

doi:10.7510/jgjs.issn.1001-3806.2025.03.009

Laser Technology, Volume. 49, Issue 3, 376(2025)

Study on the modulated oscillation laser welding and temperature field simulation of magnesium alloys

ZHANG Mingjun^1、*, DUAN Wei¹, WANG Rui¹, WANG Hailong¹, GUO Jing², LI Heqing¹, and PANG Xiaobing³

¹College of Automotive and Mechanical Engineering, Changsha University of Science and Technology, Changsha 410114, China

²Hunan Baohuifeng New Material Technology Co. Ltd., Huaihua 418000, China

³Department of Mechanical Engineering, Changsha University, Changsha 410022, China

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References(11)

[3] [3] TAN C W, SU J H, LIU Y F,et al. Enhanced interfacial bonding strength of laser bonded titanium alloy/CFRTP joint via hydrogen bonds interaction[J]. Composites, 2022, B239: 109966.

[4] [4] PADMANABAN G, BALASUBRAMANIAN V. Effects of laser beam welding parameters on mechanical properties and microstructure of AZ31B magnesium alloy[J]. Transactions of Nonferrous Metals Society of China (English Edition), 2011, 21(9): 1917-1924.

[5] [5] MA G H, SHEN X, PING Q N,et al. Microscopic structure and property of double-electrode gas metal arc welding of AZ31B magnesium alloy[J]. Journal of Shanghai Jiao Tong University (Science), 2017, 22: 286-290.

[8] [8] YANG T, ZHANG Y, WANG K,et al. Microstructure and properties of MgAlCd filler metal scraped brazing AZ31 magnesium alloy joint[J]. Journal of Materials Research and Technology, 2022, 21: 3548-3555.

[9] [9] CHIUZULI F R, BATISTAO B F, BERGMANN L A,et al. Effect of the gap width in AZ31 magnesium alloy joints obtained by friction stir welding[J]. Journal of Materials Research and Technology, 2021, 15: 5297-5306.

[13] [13] NING J, ZHANG L, ZHANG X. Energy coupling behavior in modulated fiber laser welding of high reflectivity AZ31 mg alloy[J]. Rare Metal Materials and Engineering, 2017, 46(5): 1437-1444.

[15] [15] HAO K, WANG H, GAO M,et al. Laser welding of AZ31B magnesium alloy with beam oscillation[J]. Journal of Materials Research and Technology, 2019, 8(3): 3044-3053.

[16] [16] MENG Y F, FU J W, ZHANG Sh,et al. Laser-arc hybrid welding of AZ31B magnesium alloy by newly-designed beam oscillating pattern[J]. Journal of Manufacturing Processes, 2023, 93: 208-218.

[17] [17] NING J, ZHANG L J, YIN X Q,et al. Mechanism study on the effects of power modulation on energy coupling efficiency in infrared laser welding of highly-reflective materials[J]. Materials & Design, 2019, 178: 107871.

[19] [19] ZHANG Ch Y, MA G H, NIE J,et al. Numerical simulation of AZ31B magnesium alloy in DE-GMAW welding process[J]. The International Journal of Advanced Manufacturing Technology, 2015, 78: 1259-1264.

[20] [20] XU G X, ZHENG Zh Q, CAO Q N,et al. Numerical and experimental investigation on weld formation during laser + MIG hybrid fi-llet welding of aluminum alloy in horizontal position[J]. The International Journal of Advanced Manufacturing Technology, 2019, 102: 2683-2694.

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ZHANG Mingjun, DUAN Wei, WANG Rui, WANG Hailong, GUO Jing, LI Heqing, PANG Xiaobing. Study on the modulated oscillation laser welding and temperature field simulation of magnesium alloys[J]. Laser Technology, 2025, 49(3): 376

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Paper Information

Category:

Received: Mar. 31, 2024

Accepted: Jul. 11, 2025

Published Online: Jul. 11, 2025

The Author Email: ZHANG Mingjun (mj_zhang@csust.edu.cn)

DOI:10.7510/jgjs.issn.1001-3806.2025.03.009

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology