Brahmeswara Rao, D and Venkatarao, K and Gopala Krishna, A (2018) A hybrid approach to multi response optimization of micro milling process parameters using Taguchi method based graph theory and matrix approach (GTMA) and utility concept,. Measurement, 120. pp. 43-51.
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Abstract
Nowadays, it is required to produce micro products with high dimensional accuracy to use them in different applications like aerospace, electronic and optics. The objective of this study is to investigate influence of process parameters on surface roughness (Ra and Rq), tool wear and cutter vibration in micro milling of AISI304 stainless steel. According to orthogonal array of L27, twenty-seven experiments were conducted on the work�piece with carbide end mill cutter at different levels of spindle speeds, feeds and depth of cuts. A hybrid approach
of Taguchi method based graph theory and matrix approach (GTMA) and utility concept was used for multi response optimization of process parameters. The GTMA was used to calculate weightage of four responses as per user’s opinion or preference. The utility concept was used to calculate utility value of four responses using preference scale. Mean utility values of responses are analyzed with Taguchi method and analysis of variance. The optimum process parameters for the minimization responses were found to be 6000 rpm of spindle speed, 95 µm/teeth of feed and 50 µm of depth of cut. The predicted responses at optimal process parameters are
Ra = 0.534 µm, VB = 70.861 µm, Amp = 54.395 µm and Rq = 0.894 µm. A confirmation test was also carried out to verify the results
Item Type: | Article |
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Subjects: | AC Rearch Cluster |
Depositing User: | Unnamed user with email techsupport@mosys.org |
Date Deposited: | 05 Dec 2023 08:56 |
Last Modified: | 05 Dec 2023 08:56 |
URI: | https://ir.vignan.ac.in/id/eprint/338 |