Properties of R6M5 steel powders of various particle sizes and the structure of the steel in the sintered condition

Abstract

An investigation was carried out into the effect of particle size of powders produced by comminution of R6M5 high-speed steel waste (swarf) on their compressibility and sinterability. It is shown that with decreasing mean particle size the compressibility of such powders deteriorates, but their sinterability improves. The finer the steel powder, the lower is the sintering temperature necessary for the attainment of a given density. Varying the powder particles size brings about marked changes in the microstructure of the steel in the sintered condition. The liquid phase (ledeburitic eutectic) appearing during the sintering of steel powders of different particle sizes varies in form and distribution. With coarse powders (dm=100 μm) the eutectic is similar to that in cast steel, but with powders of small particle size (dm=22 μm) it is finer and evenly distributed throughout the structure in the form of thin lamellae.