Abstract
A flexible disk grinding process model was developed based on the dynamic relationship proposed by Kurfess and the influence of the major system parameters which potentially affect the grinding process was studied. Due to the process complexities, several new parameters were assumed to be kinematically dependent on the geometric layouts of the process. Different process stages had been defined depending on the kinematic relationships between the grinding disk and workpiece. A trend of depth of cut was simulated using the proposed model and compared with the empirically measured data in two dimensions. Due to a poor prediction capability of the first model, a modified model was proposed and a better performance has been proved to reveal a closer description of processed surface quality. Also a deflection length has been verified using a different analytical approach.
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Yoo, SM., Choi, MJ. & Kim, YJ. Model development of flexible disk grinding process. KSME International Journal 14, 1114–1121 (2000). https://doi.org/10.1007/BF03185065
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DOI: https://doi.org/10.1007/BF03185065