One of the most challenging issues in robotic machining process is to know the vibration/chatter characteristics. To reduce the trial and error frustration, this paper presents the underline mechanism and theoretical analysis to provide physical understanding for the onset of chatter problem and principles to prevent that. First, the cutting force model and robot structure model are established for a systematic analysis of chatter mechanism. Completely different from common woes of regenerative chatter in conventional CNC machine paradigm, another type of chatter, namely, mode-coupling chatter was identified as the dominant source of vibrations in robotic machining, largely due to the inherent low structure stiffness of industrial robot. In-depth analysis for stability criteria and experimental verifications are then presented followed by the guidelines of process configuration and parameter selections to achieve chatter free machining operation.
[1]
H. E. Merritt.
Theory of Self-Excited Machine-Tool Chatter: Contribution to Machine-Tool Chatter Research—1
,
1965
.
[2]
Zengxi Pan,et al.
Machining with flexible manipulator: toward improving robotic machining performance
,
2005,
Proceedings, 2005 IEEE/ASME International Conference on Advanced Intelligent Mechatronics..
[3]
Jon Rigelsford,et al.
Manufacturing Automation: Metal Cutting Mechanics, Machine Tool Vibrations, and CNC Design
,
2004
.
[4]
Alessandro Gasparetto,et al.
A System Theory Approach to Mode Coupling Chatter in Machining
,
1998
.