Title :
Nano Control Algorithm for Grinding and Polishing Aspherical Surface
Author :
Kim, HyungTae ; Yang, HaeJeong ; Kim, SungChul
Author_Institution :
AM Technol., Ansan
Abstract :
A position control method for interpolating aspherical grinding and polishing tool path was reviewed and experimented in a nano precision machine. The position-base algorithm was reformed from the time-base algorithm, proposed in the previous study. The characteristics of the algorithm were in the velocity control loop with position feedback. The aspherical surface was divided by an interval at which each velocity and acceleration were calculated. The theoretical velocity was corrected by position error during processing. In the experiment, a machine was constructed and nano-scale linear encoders were installed at each axis. Relation between process parameters and the variation of position error was monitored and discussed. The best result from optimized parameters showed that the accuracy was 150nm and improved from the previous report.
Keywords :
feedback; grinding; machine tools; nanopositioning; polishing; velocity control; aspherical grinding; aspherical surface; nanocontrol algorithm; nanoprecision machine; nanoscale linear encoders; polishing tool path; position control method; position feedback; position-base algorithm; theoretical velocity; time-base algorithm; velocity control loop; Acceleration; Equations; Error correction; Feeds; Interpolation; Lenses; Machining; Partitioning algorithms; Shape; Testing;
Conference_Titel :
Emerging Technologies and Factory Automation, 2006. ETFA '06. IEEE Conference on
Conference_Location :
Prague
Print_ISBN :
0-7803-9758-4
DOI :
10.1109/ETFA.2006.355342
