In this paper a PD fuzzy logic controller is designed and implemented to suppress chatter in peripheral milling. The controller selects combinations of the amplitude and frequency of spindle speed modulation, online, to keep a chatter indicator, the R-value, close to a prescribed set point. The controller was successful in suppressing chatter at certain operating points. The effect of the control action delay time and the degree of process instability on the controller performance were addressed through simulations and experiments. At some operating points the controller resulted in an oscillatory behaviour of the process and the R-value fluctuated significantly. Stability lobes were used to explain this phenomenon. Strategies for enhancing the performance of the controller were proposed.
[1]
Fathy Ismail,et al.
Chatter detection by monitoring spindle drive current
,
1997
.
[2]
Chuen-Chien Lee.
FUZZY LOGIC CONTROL SYSTEMS: FUZZY LOGIC CONTROLLER - PART I
,
1990
.
[3]
Shih-Chieh Lin,et al.
The Effects of Variable Speed Cutting on Vibration Control in Face Milling
,
1990
.
[4]
Tsu-Chin Tsao,et al.
A new approach to stability analysis of variable speed machining systems
,
1993
.
[5]
Philip K. Chan,et al.
In-process detection and suppression of chatter in milling
,
1992
.
[6]
M. Braae,et al.
FUZZY RELATIONS IN A CONTROL SETTING
,
1978
.