Dimensional instability studies in machining of Inconel 718 nickel based superalloy as applied to aerogas turbine components

Inconel 718 alloy is used extensively in aerogas turbines and this alloy is most difficult to machine and highly prone to dimensional instability afte r machining. Such detrimental phenomenon poses an enormous problem in engin e assembly and affects structural integrity. This paper highlights the syst ematic research work undertaken to study the plastic deformation characteri stics of Inconel 718, and the effect of process variables on machined surfa ce, subsurface, and dimensional instability. Also illustrated is the techni que developed for simultaneous optimization of several process variables su ch as cutting speed, feed, depth of cut, rake angle,and tool nose radius to control the residual stresses and dimensional instability within the accep table tolerance band of the component. Prediction equations were developed for residual stress, dimensional instability, too life, surface finish, and material removal rate. Predicted data were validated experimentally. This paper also presents the qualitative and quantitative data on dimensional in stability with specific case studies of jet engine components, and it clear ly illustrates the approach followed to develop a technique to control such detrimental effect.