Study on Grinding Force and Surface Roughness of Ni3Al Based Superalloy

Abstract

Ni3Al based superalloy is a kind of intermetallics, it is a relatively new superalloy, its superior high temperature characteristic makes it the fifth generation aero-engine turbine blade material. The machinability of Ni3Al based superalloy is poor, and its process parameters have significant influence on grinding force and surface integrity. The creep feed grinding experiments of Ni3Al based superalloy IC10 were carried out with different process parameters. The experimental results show that the workpiece speed has the greatest effect on grinding force, surface roughness and 3D surface topography, followed by grinding depth, the wheel speed has the smallest influence. Grinding force is positively correlated with grinding depth and workpiece speed, and negatively correlated with grinding wheel speed. Similarly, surface roughness is positively correlated with grinding depth and workpiece speed, and negatively correlated with grinding wheel speed. The higher the workpiece speed, the deeper the grooves and the higher the peaks of the surface topography. In order to maintain high surface quality, small workpiece speed and grinding depth should be chosen during grinding process.