Comparative performance analysis of Tung and Jatropha emulsions for development as cutting fluids

This work was based on a comparative analysis of the action of Tung and Jatropha Curcas emulsions as cutting fluids for a CGI gray cast iron, where machining parameters, tool wear and fluid efficiency were analyzed. The results that followed the Reichert Test, milling with TiN coated carbide inserts...

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Veröffentlicht in:	Materials research express 2020-01, Vol.7 (1), p.15503, Article 015503
Hauptverfasser:	Sartori Moreno, João Roberto, da Silva, Genésio Lopes, Silva Junior, Carlos Elias, Souza Gonçalves, Janaina Fracaro
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Sprache:	eng
Schlagworte:	and CGI gray cast iron Chipping Compacted graphite iron Cutting fluids Cutting parameters Cutting speed Cutting wear Emulsions flank wear Gray iron Inserts Materials Science Materials Science, Multidisciplinary Milling (machining) Plastic deformation Process parameters reichert test Science & Technology Substrates Technology Titanium nitride coated carbides Tool wear Tung and Jatropha emulsions Wear mechanisms Weight loss measurement
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description	This work was based on a comparative analysis of the action of Tung and Jatropha Curcas emulsions as cutting fluids for a CGI gray cast iron, where machining parameters, tool wear and fluid efficiency were analyzed. The results that followed the Reichert Test, milling with TiN coated carbide inserts, weight loss and pins temperatures measurements for each fluid.Given the operating conditions, the main wear mechanism presented by CGI gray cast iron machining, using Tung and Jatropha emulsions as cutting fluid, was flank wear, with adherence to the flank surface and the tool outlet. Therefore, substrate peeling was observed followed by chipping and breaking of the cutting edges of the tool with higher incidence in machining with emulsified Tung fluid.The tool wear zone occurred mainly near the radius of the tool nose on the flank side, with plastic deformation independent of the cutting speed.
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subjects	and CGI gray cast iron Chipping Compacted graphite iron Cutting fluids Cutting parameters Cutting speed Cutting wear Emulsions flank wear Gray iron Inserts Materials Science Materials Science, Multidisciplinary Milling (machining) Plastic deformation Process parameters reichert test Science & Technology Substrates Technology Titanium nitride coated carbides Tool wear Tung and Jatropha emulsions Wear mechanisms Weight loss measurement
title	Comparative performance analysis of Tung and Jatropha emulsions for development as cutting fluids
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