Home > Archive>Volume 39, Issue 4, 2022 >74-83. DOI:10.16749/j.cnki.jecjtu.20220727.005
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Study on the Effect Mechanism of Laser Cladding Velocity Field Based on Thermal-Fluid Coupling Model
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TG174.44;U216

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    Abstract:

    The velocity distribution in the molten pool has a significant impact on the cladding depth and width of the laser cladding layer and the surface morphology, which in turn affects the quality of the cladding layer. To this end, a thermal-fluid coupling model of laser cladding is constructed, and the cladding process under different laser power and powder feed rate is simulated by using it. Therefore, this paper uses this model to deeply study the effect of laser process parameters on the temperature field and the velocity field in the molten pool. It was found that as the laser power increases, the spot size or the scanning speed decreases, the peak value of the fluid flow velocity in the molten pool increases during the rising period, and the decline in the peak period of the flow velocity decreases gradually or even stabilizes. while the change of the powder feed rate has almost no effect on the velocity field. In addition, the influence of the surface tension coefficient on the velocity field in the molten pool is also studied.For the cladding material with negative surface tension coefficient, It was found that the fluid in the molten pool flows from the laser irradiation area to both sides, which makes the molten pool shallower and deeper.The cladding material containing active elements such as S has a positive surface tension coefficient, and the fluid in the molten pool flows from both sides of the molten pool to the middle, which makes the molten pool deeper and narrower. As the absolute value of the surface coefficient increases, the fluid velocity peaks will increase with it.

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赵明娟,李宝星,吴涛,赵龙志,曾建邦,焦海涛,李劲,宋立军.基于热-流耦合模型研究激光熔覆速度场影响机制[J].华东交通大学学报英文版,2022,39(4):74-83.
Zhao Mingjuan, Li Baoxing, Wu Tao, Zhao Longzhi, Zeng Jianbang, Jiao Haitao, Li Jin, Song Lijun. Study on the Effect Mechanism of Laser Cladding Velocity Field Based on Thermal-Fluid Coupling Model[J]. JOURNAL OF EAST CHINA JIAOTONG UNIVERSTTY,2022,39(4):74-83

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  • Online: September 13,2022
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