Experimental investigation of the minimum quantity lubrication in end-milling of AA6061T6 by coated carbide tools

This report presents an experimental investigation on the effects of output parameters which are surface roughness, tool wear and material removal rate during machining aluminum alloy 6061-T6 using minimum quantity lubricant (MQL) technique. The minimum quantity of lubrication technique is becoming...

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Bibliographic Details
Main Author: Abdul Muhaimin, Aris
Format: Undergraduates Project Papers
Language:English
Published: 2013
Subjects:
Online Access:http://umpir.ump.edu.my/id/eprint/8489/1/Experimental%20investigation%20of%20the%20minimum%20quantity%20lubrication%20in%20end-milling.pdf
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Summary:This report presents an experimental investigation on the effects of output parameters which are surface roughness, tool wear and material removal rate during machining aluminum alloy 6061-T6 using minimum quantity lubricant (MQL) technique. The minimum quantity of lubrication technique is becoming increasingly more popular due to the safety of environment. The cutting speed, depth of cut, feed rate and MQL flow rate are selected input parameters in this study. This experiment was conducted based on central composite design method. To develop a model of process optimization based on the response surface method. MQL parameters include nozzle direction in relation to feed direction, nozzle elevation angle, distance from the nozzle tip to the cutting zone, lubricant flow rate and air pressure. To achieve a maximum output parameters based on the optimized process parameters for coated carbide cutting tools (CTP 2235). The surface roughness was increased with decrease of cutting speed. The optimum cutting condition for MQL and flooded are obtained the feed rate, depth of cut, cutting speed and MQL flow rate are 379 mm/tooth, 2 mm, 5548.258 rpm and 0.333 ml/min respectively for MQL. The optimum cutting condition for flooded are obtained the feed rate, depth of cut, cutting speed and MQL flow rate are 379 mm/tooth, 2 mm and 5563.299 rpm respectively for flooded. It is seen that a majority of coated carbide inserts have a long tool wear when exposed to high cutting speed, and feed rate leading to breakage of the inserts.