Optimal machining conditions for turning Ti-6Al-4V using response surface methodology

Optimal machining conditions for turning Ti-6Al-4V using response surface methodology

Satyanarayana Kosaraju;Venu Gopal Anne;Satyanarayana Kosaraju;Venu Gopal Anne;
advances in manufacturing 2013 Vol. 1 pp. 329-339
245
kosaraju2013advancesoptimal

Abstract

Machining titanium is one of ever-increasing magnitude problems due to its characteristics such as low thermal conductivity, modulus of elasticity and work hardening. The efficient titanium alloy machining involves a proper selection of process parameters to minimize the tangential force (F z) and surface roughness (R a). In the present work, the performance of PVD/TiAlN coated carbide inserts was investigated using response surface methodology (RSM) for turning Ti-6Al-4V. The effects of process parameters such as speed (v), feed (f), depth of cut (d) and back rake angle (γ y ) on F z and R a were investigated. The experimental plan used for four factors and three levels was designed based on face centered, central composite design (CCD). The experimental results indicated that F z increased with the increase in d, f and decreased with the increase in v and γ y , whereas R a decreased with the increase in v and γ y , and increased with d and v. The goodness of fit of the regression equations and model fits (R 2) for F z and R a were found to be 0.968 and 0.970, which demonstrated that it was an effective model. A confirmation test was also conducted in order to verify the correctness of the model.

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doi:10.1007/s40436-013-0047-9
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