Effect of particle shape and size on the shrinkage of stainless steel compacts

Abstract

The effects of particle size and shape on the shrinkage of commercial 316 L stainless steel compacts are evaluated. Emphasis is placed on the effect of changes in surface area and the anisotropy in inter-particle contacts brought about by the irregular powders. The effects of fine particle addition on this anisotropy and surface area are presented and plained. An empirical relationship is derived which can be used to predict changes in the axial, radial and volume shrinkage when spherical particles are substituted into a commercial blend. The effect of spherical particle substitution on the shrinkage ratio is also discussed. It is shown how the combined effects of fine particle additions and substitutions of spherical particles for irregular particles can be used to produce a compact which exhibits a shrinkage ratio (radial to axial shrinkage) of unity.