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- Title
Chatter suppression and stability analysis of rotary ultrasonic milling titanium alloy thin-walled workpiece.
- Authors
Sun, Lianjun; Zheng, Kan; Liao, Wenhe
- Abstract
Titanium alloy and its thin-walled structures are widely used in the aerospace field. Aiming at the processing chatter and difficult-to-machine problem of titanium alloy thin-walled workpieces, rotary ultrasonic milling technology (RUM) is employed to restrict machining vibration in this paper. Firstly, for describing its dynamic characteristics, the titanium alloy web with low stiffness is equivalent to a mass-spring-damping system with three degrees of freedom. Then, a novel stability analysis method is proposed for RUM thin-walled workpiece (RUM-tww) through defining an ultrasonic function angle. Furthermore, RUM-tww stability lobe diagrams (SLDs) are achieved based on the semi-discrete method (SDM). The simulation results show that the milling stability of titanium alloy webs is improved effectively under the effect of ultrasonic vibration energy. Compared with conventional milling thin-walled workpiece (CM-tww), the stability region is increased by 80.32% within the spindle speed from 1000 to 5000r/min. Finally, the milling experiments are carried out to verify the validity and rationality of SLDs via analyzing chatter marks, cutter marks, and flatness on the machined surface. The experimental results are in good agreement with the theoretical prediction.
- Subjects
TITANIUM alloys; MULTI-degree of freedom; ULTRASONICS; THIN-walled structures; ULTRASONIC effects
- Publication
International Journal of Advanced Manufacturing Technology, 2022, Vol 118, Issue 7/8, p2193
- ISSN
0268-3768
- Publication type
Article
- DOI
10.1007/s00170-021-07658-3