Study of the electrolytic grinding mechanism using a single-diamond cutting tool with a wear flat area
作者: S. Hanasaki , M. Touge
DOI: 10.1016/0043-1648(90)90051-B
关键词: Drilling 、 Metallurgy 、 Diamond tool 、 Grinding 、 Chip formation 、 Abrasive 、 Grinding wheel 、 Electrochemical grinding 、 Diamond cutting 、 Materials science
摘要: Abstract Electrolytic single-diamond cutting was performed to determine the grinding mechanism of electromechanical at a high work feed rate. Two types tools were used in electrolytic singlediamond cutting: one is sharp-pointed tool; other tool with an arbitrary wear flat area pointed end correspond attritious abrasive grains on conductive wheel. An experimental analysis forces proposed empirical force equations consisting chip formation force, ploughing and sliding force. The applied action found reduce specific K s compressive stress n These induced by severe loss mechanical properties due selective leaching hard second-phase particles. A model for confirmed observation actual time.
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