Flash News
Welcome to IARC

Publisher Login

Latest News
Welcome to IARC- JCR Report

Submit your Journal to get IARC-JCRR Indexing and Impact Factor
 

Impact Factor calculated by IARC on the basis of Journal Citation Reference (JCR) Report.

 

Contact: iarcdpi@gmail.com

 

A SINGLE OBJECTIVE OPTIMIZATION PROCESS PARAMETER OF CNC END MILLING USING TAGUCHI METHODOLOGY
1Hemraj C. Solanki*, 1Khushbu Patel, 2Dhaval Mistry

Published in: International Journal of Scientific Review and Research in Engineering and Technology
Volume- 2, Issue-1, pp.18-27, Dec 2016
DPI :-> 16.10069.IJSRRET.2016.V2I1.1827.1356



Abstract
In The Present Study an attempt is made to evaluate the effect of Control Parameters on Surface Roughness and Material Removal Rate by using End Milling Process on Aluminum Alloy Al 6061 SiC Metal Matrix Composites. Weight Percentage of SiC, Spindle Speed, feed rate and depth of cut is selected as the input Parameters. The Surface Roughness and Material Removal Rate are selected as Output Parameters. The Experiments are conducted based on Four Factors and Three Levels for Each Factor. The results are analyzed by Taguchi Design Method. The Graphs of S/N Ratio and Means are developed by Software Package MINITAB-14. Percentage Contribution of Each Input Parameter is calculated by the Analysis Of Variance (ANOVA). The S/N Ratio Graph Shows That the Best Surface finish is associated with the lowest level of SiC Percentage followed by the lowest level of Spindle Speed, medium level of feed rate and medium level of depth of Cut. Also Maximum Material Removal Rate is obtained at medium level of SiC Percentage highest level of depth of cut followed by lowest level of Spindle Speed, highest level of feed rate, highest level of depth of cut.

Key-Words / Index Term
CNCEnd Milling, Speed, Feed Rate, Depth of cut, Material removal rate surface roughness, Taguchi, S/N ratio.

How to cite this article
1Hemraj C. Solanki*, 1Khushbu Patel, 2Dhaval Mistry , “A SINGLE OBJECTIVE OPTIMIZATION PROCESS PARAMETER OF CNC END MILLING USING TAGUCHI METHODOLOGY”, International Journal of Scientific Review and Research in Engineering and Technology, 2, Issue-1, pp.18-27, Dec 2016. DPI:16.10069.IJSRRET.V2.I1.1356