Analysis and simulation of the grinding process. Part III: Comparison with experiment

A method of simulating dressing and grinding was described in Parts I and II of this three-part series. In Part III, the effects on grinding performance of varying the dressing conditions are simulated and compared with experimental results. The results show that a coarse dressing condition leads to...

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Veröffentlicht in:	International journal of machine tools & manufacture 1996, Vol.36 (8), p.897-906
Hauptverfasser:	Chen, Xun, Rowe, W.Brian, Mills, B., Allanson, D.R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Computer simulation Exact sciences and technology Functions Mechanical engineering. Machine design Mechanics Surface roughness Wheel dressing
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container_title	International journal of machine tools & manufacture
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creator	Chen, Xun Rowe, W.Brian Mills, B. Allanson, D.R.
description	A method of simulating dressing and grinding was described in Parts I and II of this three-part series. In Part III, the effects on grinding performance of varying the dressing conditions are simulated and compared with experimental results. The results show that a coarse dressing condition leads to low grinding force and grinding power but a high workpiece surface roughness. The grinding performance of the wheel in the dwell period for “spark-out” is simulated. Simulated and experimental results both show that grinding power in the dwell period decreases following an exponential decay function, however the reduction of surface roughness does not follow an exponential decay.
doi_str_mv	10.1016/0890-6955(96)00118-6
format	Article
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Part III: Comparison with experiment</title><title>International journal of machine tools & manufacture</title><description>A method of simulating dressing and grinding was described in Parts I and II of this three-part series. In Part III, the effects on grinding performance of varying the dressing conditions are simulated and compared with experimental results. The results show that a coarse dressing condition leads to low grinding force and grinding power but a high workpiece surface roughness. The grinding performance of the wheel in the dwell period for “spark-out” is simulated. 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subjects	Applied sciences Computer simulation Exact sciences and technology Functions Mechanical engineering. Machine design Mechanics Surface roughness Wheel dressing
title	Analysis and simulation of the grinding process. Part III: Comparison with experiment
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