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- Title
A thermal error modeling method for CNC lathes based on thermal distortion decoupling and nonlinear programming.
- Authors
Du, Hongyang; Jiang, Gedong; Tao, Tao; Hou, Ruisheng; Yan, Zongzhuo; Mei, Xuesong
- Abstract
CNC lathes often use hydraulic systems or motors to lock the turret, which causes the turret to have a high temperature rise and a large thermal deformation. The traditional measuring method couples the thermal distortions of the spindle and the turret together, which is not conducive to establishing the thermal error model. To solve this problem, a new measuring method was used in this research to decouple the thermal linear and angular distortions of the spindle and the turret. In addition, constraints on the model coefficients were proposed by studying the effects of long-term and short-term variations in ambient temperature on the thermal deformation of machine tools, thus transforming the thermal deformation modeling of the spindle and turret into nonlinear programming problems. After building the thermal deformation models of the spindle and the turret, the thermal distortion model of the whole machine tool was obtained by combining them. Finally, three experiments were designed to verify the validity of the established models, and the models were compared with those established using conventional methods. The experimental results showed that the models built based on thermal distortion decoupling and nonlinear programming had higher accuracy and robustness.
- Subjects
SPINDLES (Machine tools); LATHES; HYDRAULIC motors; MACHINE tools; NONLINEAR programming; NONLINEAR equations; HIGH temperatures
- Publication
International Journal of Advanced Manufacturing Technology, 2023, Vol 128, Issue 5/6, p2599
- ISSN
0268-3768
- Publication type
Article
- DOI
10.1007/s00170-023-12038-0