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T. Ueda, A. Hosokawa, Keiji Yamada (2006)
Effect of Oil Mist on Tool Temperature in CuttingJournal of Manufacturing Science and Engineering-transactions of The Asme, 128
(1973)
Review of experimental and theoretical techniques for assessing cutting temperatures
Camelia Calomir, George (2003)
ON THE FUTURE OF BIODEGRADABLE VEGETABLE LUBRICANTS
Vegetable Based Cutting Fluid -a New Dimension in Research
Mukhopadhyay Mukhopadhyay, Banerjee Banerjee, Suresh Kumar Reddy Suresh Kumar Reddy (2007)
Investigation to study the applicability of solid lubricant in turning AISI 1040 steelASME‐Journal of Manufacturing Science and Engineering, 129
T. Childs (2000)
Metal Machining: Theory and Applications
F. Spiring (2007)
Introduction to Statistical Quality ControlTechnometrics, 49
W. Belluco, L. Chiffre (2002)
Surface integrity and part accuracy in reaming and tapping stainless steel with new vegetable based cutting oilsTribology International, 35
(2003)
Experience with the new rotating high speed dynamometer
Ioan Ioan, Camelia Camelia, George George (2002)
On the future of biodegradable vegetable lubricants used for industrial trybosystemsThe Annals of University ‘Dunarea De Jos’ of Galati Fascicle, 8
Vamsi Krishna Vamsi Krishna, Rao Rao (2008)
Performance evaluation of solid lubricants in terms of machiningInternational Journal of Machine Tools & Manufacture, 48
S. Shaji, V. Radhakrishnan (2002)
An investigation on surface grinding using graphite as lubricantInternational Journal of Machine Tools & Manufacture, 42
Matthew Alberts, K. Kalaitzidou, S. Melkote (2009)
An investigation of graphite nanoplatelets as lubricant in grindingInternational Journal of Machine Tools & Manufacture, 49
N. Reddy, P. Rao (2006)
Experimental investigation to study the effect of solid lubricants on cutting forces and surface quality in end millingInternational Journal of Machine Tools & Manufacture, 46
A. Gopal, P. Rao (2004)
Performance Improvement of Grinding of SiC Using Graphite as a Solid LubricantMaterials and Manufacturing Processes, 19
S. Shaji, V. Radhakrishnan (2003)
An investigation on solid lubricant moulded grinding wheelsInternational Journal of Machine Tools & Manufacture, 43
T. Ong, B. Hinds (2003)
The application of tool deflection knowledge in process planning to meet geometric tolerancesInternational Journal of Machine Tools & Manufacture, 43
D. Mukhopadhyay, Sankha Banerjee, N. Reddy (2007)
Investigation to Study the Applicability of Solid Lubricant in Turning AISI 1040 steelJournal of Manufacturing Science and Engineering-transactions of The Asme, 129
F. Klocke, K. Gerschwiler, R. Fritsch, D. Lung (2006)
PVD-coated tools and native ester – an advanced system for environmentally friendly machiningSurface & Coatings Technology, 201
Singh Dilbag, P. Rao (2008)
Performance improvement of hard turning with solid lubricantsThe International Journal of Advanced Manufacturing Technology, 38
P. Krishna, D. Rao (2008)
Performance evaluation of solid lubricants in terms of machining parameters in turningInternational Journal of Machine Tools & Manufacture, 48
L. Sentyurikhina, G. Lutsenko, M. Sviridova (1980)
Milling of molybdenum disulfide and graphite in impact-rebound millsChemistry and Technology of Fuels and Oils, 16
(2000)
Clean metal cutting process using solid lubricants
Control of machining zone temperature is achieved by providing effective cooling and lubrication. Though cutting fluids are widely used to carry away the heat in metal cutting, they cannot be recommended in the light of ecological and economic manufacture. Hence, there arises a need to identify eco‐friendly and user‐friendly alternatives to conventional cutting fluids. The present work features a specific study of the application of molybdenum disulphide as solid lubricant for improving tribological properties in turning and to overcome the limitations that arise with the use of cutting fluids or while dry machining. An experimental setup developed has been used to maintain constant flow rate of solid lubricant powder continuously on to the workpiece and tool interface zone. Results are encouraging with overall improvement in machining properties in terms considered parameters as compared to wet and dry techniques, due to the reduction in friction at tool/work and tool/chip interface. Copyright © 2010 John Wiley & Sons, Ltd.
Lubrication Science – Wiley
Published: Mar 1, 2011
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