2001
DOI: 10.2172/787791
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Mitigation of Chatter Instabilities in Milling by Active Structural Control

Abstract: This report documents how active structural control was used to significantly enhance the metal removal rate of a milling machine. An active structural control system integrates actuators, sensors, a control law and a processor into a structure for the purpose of improving the dynamic characteristics of the structure. Sensors measure motion, and the control law, implemented in the processor, relates this motion to actuator forces. Closed-loop dynamics can be enhanced by proper control law design. Actuators and… Show more

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Cited by 20 publications
(24 citation statements)
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“…Hence, a higher MMRR can be expected by applying the proposed control method. The present control approach is developed for the regenerative chatter dynamics derived from real cutting processes [14,15,19]. Our future work will focus on applying the method to experimental and actual machining systems.…”
Section: Resultsmentioning
confidence: 99%
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“…Hence, a higher MMRR can be expected by applying the proposed control method. The present control approach is developed for the regenerative chatter dynamics derived from real cutting processes [14,15,19]. Our future work will focus on applying the method to experimental and actual machining systems.…”
Section: Resultsmentioning
confidence: 99%
“…When the lower actuator saturation is activated, that is, u u max 1 2 , we can obtain that OE 3 ; 4 T 0 (otherwise ı 3 0 and u u max 1 2 C "1 2 ı 3 u max 1 2 , which is a contradiction) and e u D u C u max 1 2 "1 2 ı 3 based on left inequality (19) in the positive invariant set O 1 and O 2 , which is guaranteed by Lemma 3.1. Therefore, one has…”
Section: Proofmentioning
confidence: 97%
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“…Moreover, vibration absorbers require accurate tuning of their natural frequencies and, consequently, lack robustness to changing machining conditions. Active chatter control in milling has mainly been focused on active damping of the machine dynamics [3,4] or workpiece [5]. Damping the machine or workpiece dynamics, either passively or actively, results in a uniform increase of the stability boundary for all spindle speeds.To enable more dedicated shaping of the stability boundary (e.g., lifting the SLD locally around a specific spindle speed at which one desires to operate for the manufacturing of a certain product), the regenerative effect, which is inherent to the metal cutting process and which is the root cause for chatter, should be taken into account during chatter controller design.…”
mentioning
confidence: 99%