A New Approach for Consolidation of Pure Magnesium Powder Using an Integrated Severe Plastic Deformation Route

In this paper, a new approach using a novel severe plastic deformation route is presented for consolidation and processing of a high-density and ultrafine-grained pure magnesium. Pure magnesium particles were successfully consolidated at 400 degrees C into a sufficiently dense bulk material using a new combined method including cyclic extrusion compression, equal channel angular pressing (ECAP) and conventional extrusion. The grain refinement, consolidation behavior and mechanical properties were deeply investigated. Results showed that the as-consolidated material had a fine grain structure with excellent tensile strength and ductility compared to as-cast and as-ECAPed specimens. Vickers microhardness increased from 38.75 to 52.58 during the process. Porosity also reduced considerably from 12.55 to 1.2% during the process which led to a dense bulk material. Results indicate that the introduced method is a promising and effective process for producing strong bulk materials from metal powders.