Determination of critical and optimal powder loadings for 316L fine stainless steel feedstocks for micro-powder injection molding

Adapted from powder injection molding (PIM), the micro-PIM technology satisfies the increasing demands for functionalization and miniaturization of micro-parts. Research works in this area have been carried out through micro injection molding tests issued from mixtures consisting in 316L stainless steel fine powders with D-50 = 3.4 mu m and different thermoplastic polymeric binders. The well appropriate polymer-powder formulations are composed with different binders. The binders have been adapted to micro-injection and tested to find out an optimum feedstock. The rheological characterization of the elaborated feedstock has been carried out according to the selected stainless steel powders and polymers. The critical powder volume loading has been determinated and fixed in the range of 68-70%, and the optimal powder volume loading has been chosen around 66% for 316L stainless steel feedstock (D-50 = 3.4 mu m). This choice has been confirmed by processing of the micro-components with the retained feedstock loaded up to 66%. (c) 2012 Elsevier B.V. All rights reserved.