Microstructure and mechanical properties of Cu-base amorphous alloy matrix composites consolidated by spark plasma sintering

In this study, Cu-based bulk amorphous alloy billets were fabricated by a powder metallurgy route, and their microstructure and mechanical properties were investigated. Rapidly solidified amorphous powders were produced by a conventional N 2 gas atomization method. In order to consolidate amorphous

Spark plasma sintering has been applied to the production of aluminium-based functionally graded material systems to be used in abrasive and high temperature conditions. The overall mechanical properties of these metal matrix composites were determined during the optimization phases of the productio

Oxide-dispersion-strengthened Ni 3 Al composites have been fabricated by mechanical alloying and subsequently spark plasma sintering with elemental powder. A solution Ni(Al) has been obtained during mechanical alloying. In addition, element O is introduced by mechanical alloying. Composites have a n

This paper describes the microstructures and nanomechanical properties of copper consolidated of oxidized submicron-sized Cu-powder (average particle size 410 nm) by spark plasma sintering (SPS). Good compact density, small grain size (460 nm) and microhardness of 1.24 GPa were achieved at 873 K in