Effects of minimum quantity lubrication on turning AISI 9310 alloy steel using vegetable oil-based cutting fluid

This paper presents the effects of minimum quantity lubrication (MQL) by vegetable oil-based cutting fluid on the turning performance of low alloy steel AISI 9310 as compared to completely dry and wet machining in terms of chip–tool interface temperature, chip formation mode, tool wear and surface r...

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Published in:Journal of materials processing technology 2009-08, Vol.209 (15), p.5573-5583
Main Authors: Khan, M.M.A., Mithu, M.A.H., Dhar, N.R.
Format: Article
Language:English
Subjects:
Chip
Low alloy steel
MQL
Surface roughness
Temperature
Tool wear
Turning
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description This paper presents the effects of minimum quantity lubrication (MQL) by vegetable oil-based cutting fluid on the turning performance of low alloy steel AISI 9310 as compared to completely dry and wet machining in terms of chip–tool interface temperature, chip formation mode, tool wear and surface roughness. The minimum quantity lubrication was provided with a spray of air and vegetable oil. MQL machining was performed much superior compared to the dry and wet machining due to substantial reduction in cutting zone temperature enabling favorable chip formation and chip–tool interaction. It was also seen from the results that the substantial reduction in tool wears resulted in enhanced the tool life and surface finish. Furthermore, MQL provides environment friendliness (maintaining neat, clean and dry working area, avoiding inconvenience and health hazards due to heat, smoke, fumes, gases, etc. and preventing pollution of the surroundings) and improves the machinability characteristics.
doi_str_mv 10.1016/j.jmatprotec.2009.05.014
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subjects Chip
Low alloy steel
MQL
Surface roughness
Temperature
Tool wear
Turning
title Effects of minimum quantity lubrication on turning AISI 9310 alloy steel using vegetable oil-based cutting fluid
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