IJIRST (International Journal for Innovative Research in Science & Technology)ISSN (online) : 2349-6010

 International Journal for Innovative Research in Science & Technology

Effect of Cutting Parameters on Surface Roughness and MRR of Titanium Alloys using VMC


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International Journal for Innovative Research in Science & Technology
Volume 4 Issue - 6
Year of Publication : 2017
Authors : Darpan Punjabhai Vansh ; Diptesh Patel; Maulik Patel

BibTeX:

@article{IJIRSTV4I6001,
     title={Effect of Cutting Parameters on Surface Roughness and MRR of Titanium Alloys using VMC},
     author={Darpan Punjabhai Vansh, Diptesh Patel and Maulik Patel},
     journal={International Journal for Innovative Research in Science & Technology},
     volume={4},
     number={6},
     pages={1--10},
     year={},
     url={http://www.ijirst.org/articles/IJIRSTV4I6001.pdf},
     publisher={IJIRST (International Journal for Innovative Research in Science & Technology)},
}



Abstract:

The use of titanium alloys is increasing rapidly nowadays. Simultaneously the requirement for machining of titanium alloys is also increasing. The present research work deal with the optimization of process parameters such as spindle speed, feed rate, depth of cut, MRR and surface roughness value for titanium alloy by using Advanced cutting Tools. Hence the present study uses titanium Grade 12 as work piece material and CBN and carbide as tool material and focusses on the optimum value of material removal rate and surface roughness. In this paper, Taguchi Method has been used to identify the optimal combination of influential factors in the milling process. Milling experiment has been performed on titanium Grade 12 material, according to Taguchi orthogonal array (L9) for various combinations of controllable parameters viz. speed, feed and depth of cut. The surface roughness (Ra) is measured and recorded for each experimental run and analyzed using Taguchi S/N ratios and the optimum controllable parameter combination is identified.


Keywords:

VMC, Optimization, Surface roughness (Ra), Material removal rate (MRR), Carbide tool material, cubic boron nitride tool material, Alluminium alloy


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