EFFECTS OF Al2O3 NANOCONCENTRATION AND CUTTING CONDITION ON SURFACE ROUGHNESS IN MQCL HARD MILLING OF HARDOX 500
Abstract
This study presents the work on effects of MQCL using Al2O3 rice oil-based nanofluid on hard milling of Hardox 500 steel. The hard milling performance of Hardox 500 steel, one of the difficult-to-cut materials, is improved. The Box-Behnken experimental design is applied to point out that nanoconcentration, cutting speed and feed rate have strong influences on surface roughness Ra. The obtained results indicate that the optimized value of surface roughness is 0.0822 µm at Al2O3 nanoconcentration of 0.7626 %, cutting speed of 80 m/min and feed rate of 0.08 mm/tooth. Moreover, Al2O3 rice oil-based nanofluid is successfully applied for hard milling of Hardox 500 steel that is a step toward environmentally friendly machining.Downloads
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Published
2019-08-27
Issue
Section
NATURAL SCIENCE – ENGINEERING – TECHNOLOGY
