Research on the process and molten pool flow mechanism of laser cladding Inconel 625
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Graphical Abstract
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Abstract
In order to investigate the process of laser cladding (LC) Inconel 625 alloy powder on Q235 steel plate, this paper focuses on analyzing the effects of different process parameters on the temperature field, stress field and flow behavior of the molten pool through a combination of finite element simulation and experiment. The simulation part established a geometric model, applied the Goldak double ellipsoid heat source model, and simulated the LC process by varying the laser power and scanning speed. For the experimental part, LC equipment was used, parameters such as laser power and scanning speed were adjusted, and the molten pool dynamics were observed by infrared temperature measurement and high-speed photography. The results show that the laser power and scanning speed are the key factors affecting the quality of cladding, and the experimental observation coincides with the simulation results, which verifies the validity of the simulation method and provides theoretical basis and experimental support for the optimization of the LC process.
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