Applied Sciences (Nov 2020)

Implicit Subspace Iteration to Improve the Stability Analysis in Grinding Processes

  • Jorge Alvarez,
  • Mikel Zatarain,
  • David Barrenetxea,
  • Jose Ignacio Marquinez,
  • Borja Izquierdo

DOI
https://doi.org/10.3390/app10228203
Journal volume & issue
Vol. 10, no. 22
p. 8203

Abstract

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An alternative method is devised for calculating dynamic stability maps in cylindrical and centerless infeed grinding processes. The method is based on the application of the Floquet theorem by repeated time integrations. Without the need of building the transition matrix, this is the most efficient calculation in terms of computation effort compared to previously presented time-domain stability analysis methods (semi-discretization or time-domain simulations). In the analyzed cases, subspace iteration has been up to 130 times faster. One of the advantages of these time-domain methods to the detriment of frequency domain ones is that they can analyze the stability of regenerative chatter with the application of variable workpiece speed, a well-known technique to avoid chatter vibrations in grinding processes so the optimal combination of amplitude and frequency can be selected. Subspace iteration methods also deal with this analysis, providing an efficient solution between 27 and 47 times faster than the abovementioned methods. Validation of this method has been carried out by comparing its accuracy with previous published methods such as semi-discretization, frequency and time-domain simulations, obtaining good correlation in the results of the dynamic stability maps and the instability reduction ratio maps due to the application of variable speed.

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