Experimental study on the single grit interaction behaviour and brittle–ductile transition of grinding with a diamond micro-grinding tool
作者: J. ChengJ. WuY. D. GongX. L. WenQ. Wen
作者单位: 1Northeastern University
刊名: The International Journal of Advanced Manufacturing Technology, 2017, Vol.91 (1-4), pp.1209-1226
来源数据库: Springer Nature Journal
DOI: 10.1007/s00170-016-9816-5
关键词: Micro-grindingSingle grit interaction behaviourBrittle–ductile transitionSingle crystal silicon
英文摘要: This study presents new information on single grit interaction behaviour and its brittle–ductile transition in micro-grinding single crystal silicon using a single grit diamond tool. A model to describe the energy interaction between the cutting behaviour of a single grit and the workpiece in micro-grinding is established based on the single grit geometry model, which was indicated in Fig. 1a, the critical condition of the volume of material removed and the conservation of energy. The tip angle of the single-point diamond tool has been considered. To reveal the material removal mechanism of micro-grinding, a series of scratching experiments, which conducted with a low cutting speed (0.036 to 0.6 m/s), have been performed in this study. The fractures of the micro-grooves machined using...
原始语种摘要: This study presents new information on single grit interaction behaviour and its brittle–ductile transition in micro-grinding single crystal silicon using a single grit diamond tool. A model to describe the energy interaction between the cutting behaviour of a single grit and the workpiece in micro-grinding is established based on the single grit geometry model, which was indicated in Fig. 1a, the critical condition of the volume of material removed and the conservation of energy. The tip angle of the single-point diamond tool has been considered. To reveal the material removal mechanism of micro-grinding, a series of scratching experiments, which conducted with a low cutting speed (0.036 to 0.6 m/s), have been performed in this study. The fractures of the micro-grooves machined using...
全文获取路径: Springer Nature  (合作)
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关键词翻译
关键词翻译
  • grinding 
  • ductile 韧性的
  • single 单独的
  • transition 转移
  • brittle 脆的
  • behaviour 性质
  • study 学习
  • micro 
  • silicon 
  • crystal 晶体