Nimonic 90A alloy is a nickel-chromium-cobalt alloy and found as a potential material for turbine blades, discs, forgings, a ring section, and hot-working tools. This paper presents the effect of concentration along with cutting speed and feed rate on Fz: cutting force, Ra: surface roughness and Vba: tool wear with the application of two different nanofluids (NFS) on turning of Nimonic 90A by TiAlN PVD carbide cutting inserts. The nanoparticles suspended in oil taken for present investigation are nAl2O3, nCNT, and groundnut oil. The Taguchi L9 orthogonal array and derringer’s desirability response surface has been employed for parameter design and optimal search. 3D surface plots, factor effect plots, Taguchi S/N, and variance tests are used to study the effect of concentration on the machining performance of Nimonic 90A. The statistical analysis revealed % concentration for nCNT and cutting speed for nAl2O3 are found as an influenced parameter on performance characteristics. From the optimization analysis, 0.25% nCNT NFs along with a cutting speed of 40 m/min and 0.17 mm/rev feed rate has proved the better machining performance on the above measures that of nAl2O3. Based on optical micrograph analysis, abrasion, adhesion, and edge hammering are found to be lower for nAl2O3 than that of nCNT NFs. On examination, the chip morphology, the curl diameter chips are exposed to very small for CNT due to the increase in lubricity and decrease of tool friction on turning of Nimonic 90A.
Investigation of Machinability Characteristics on Turning of Nimonic 90A Using Al2O3 and CNT Nanoparticle in Groundnut Oil
Sae Technical Papers
International Conference on Advances in Design, Materials, Manufacturing and Surface Engineering for Mobility ; 2019
2019-10-11
Conference paper
English
Machining Nimonic series of alloys
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