快速成型技术中分区自适应工艺调整算法研究*

doi:10.13385/j.cnki.vacuum.2020.03.16

Abstract

Abstract: There are deformation and even cracking caused by excessive internal stress in the process of additive manufacturing of laser rapid prototyping technology. In order to solve the shortcomings, a partition adaptive process adjustment algorithm is proposed from the perspective of controlling the processing path, and the whole model is processed into groups. The processing path of each group needs to be generated in real time. The generation is based on the average height value of the sub-region of the previous set of formed surfaces, and the adaptive relationship between the average height value of the sub-area and the filling interval of its corresponding area is established. Finally, the C++ language is used. The algorithm is implemented by programming, and the simulation is carried out. According to the average height value of each sub-area, the corresponding filling pitch is obtained, and the correctness of the algorithm is verified.

Key words: laser rapid format, deformation, groups, path, average height, filling interval

CLC Number:

TP391

TIAN Tong-tong, LI Lun, ZHOU Bo, ZHAO Ji-bin. Research on Partition Adaptive Process Adjustment Algorithm in Rapid Prototyping Technology[J].VACUUM, 2020, 57(3): 80-83.

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Research on Partition Adaptive Process Adjustment Algorithm in Rapid Prototyping Technology

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