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Abstract
A new feedstock formulation for metal injection moulding (MIM) of M2 high speed steels has been developed. The binder is a multicomponent system based on high density polyethylene (HDPE) and paraffin wax (PW). The compatibility between binder constituents has been studied by dynamomechanical thermal analysis (DMTA) showing a partial miscibility between both components. Viscosity measurements of the different binder mixtures at different shear rates showed that the optimum formulation for MIM was 50 vol.-% HDPE. With this optimised binder, several mixtures were prepared with different powder loadings of M2 grade high speed steel. Torque measurements of the mixtures indicated that the maximum amount of metal to be used was 70 vol.-%. The wide distribution of the metal powder was homogeneously distributed into the polymer matrix. The polymeric part was driven off by thermal debinding using a thermal cycle designed on the basis of a thermogravimetric study of the binder. Finally the vacuum sintering of the parts allow high quality parts to be obtained.