Design of laser-powder coupling for high-speed laser direct energy deposition

High-speed laser direct energy deposition (DED-LB) is developed to enhance deposition efficiency while maintaining build quality, compared to conventional DED-LB. The core of designing high-speed DED-LB involves formulating the laser-powder coupling, through optimizing nozzle structural and depositi...

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Bibliographic Details
Published in:Powder technology 2024-08, Vol.444, p.120056, Article 120056
Main Authors: Zheng, Kaiyuan, Lei, Yuchao, Wu, Jiazhu, Zhao, Penghui, Luo, Yaoen, Wei, Haiying, Zhang, Yi
Format: Article
Language:English
Subjects:
Deposition process design
High-speed laser direct energy deposition
Laser-powder coupling design
Nozzle structural design
Particle temperature distribution
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Summary:High-speed laser direct energy deposition (DED-LB) is developed to enhance deposition efficiency while maintaining build quality, compared to conventional DED-LB. The core of designing high-speed DED-LB involves formulating the laser-powder coupling, through optimizing nozzle structural and deposition process parameters. This study developed an analytical model to delineate the coupling mechanisms between laser beam and discontinuous coaxial powder stream (DCPS) comprised of individual single powder streams (SPSs). A data pretreatment method, involving gray processing, normalization, and renormalization of the thermal images successively, was applied to validate the model. Simulation results indicate that the DCPS spot size and SPS particle temperature distribution are predominantly influenced, respectively, by the nozzle structural and deposition process parameters. Through jointly designing the nozzle structural and deposition process parameters, a high deposition rate of high-speed DED-LB, which is 1.7 times that of conventional DED-LB, was achieved. This paper pioneers a new design methodology for high-speed DED-LB. [Display omitted] •A model for designing high-speed laser direct energy deposition was created.•A data pretreatment method was created to validate the laser-powder coupling model.•A new method for designing high-speed laser direct energy deposition was proposed.•The deposition rate under this method is 1.7 times that of conventional process.
ISSN:0032-5910
1873-328X
DOI:10.1016/j.powtec.2024.120056