An investigation of tool temperature in end milling considering the flank wear effect

Di Cui, Dinghua Zhang, Baohai Wu, Ming Luo

Research output: Contribution to journalArticlepeer-review

48 Scopus citations

Abstract

In this paper, the tool temperature in end milling considering the flank wear effect was investigated by theoretical and experimental method. Theoretically, a new analytical model was developed to predict tool temperature in end milling. The new analytical model takes into account the flank wear effect, complex tool geometry and dynamic heat flux and partition in end milling. In order to tackle complex tool geometry, the tool is axially discretized into numerous tool differential elements. Based on heat source method, the heat transfer of each tool differential element is analyzed independently to model the temperature of each tool differential element. Then superpose the temperature of each tool differential element is to work out the total tool temperature. Experimental, according to single factor design, the end milling operations of Ti6Al4V were conducted with fresh and worn tool to determine the effect of flank wear on tool temperature and to validate the theoretical model. The experimental validation indicates that the new temperature model is able to predict the sharp and worn tool temperature in end milling accurately. The effect of flank wear on tool temperature, cutting force and heat partition on flank face is evident. At same flank wear, the tool temperature and cutting force primarily depend on feed per tooth and secondly on cutting speed. The heat partition on tool-chip interface increases with the increase of feed per tooth, but decreases when the cutting speed increases. There is an inverse trend in variation of heat partition on flank face compared with heat partition on tool-chip interface.

Original languageEnglish
Pages (from-to)613-624
Number of pages12
JournalInternational Journal of Mechanical Sciences
Volume131-132
DOIs
StatePublished - Oct 2017

Keywords

  • End milling
  • Flank wear
  • Heat partition
  • Ti6Al4V
  • Tool temperature

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