Properties of various MIP grades
Description of the properties of MIP-A, MIP-B and MIP-C, where the latter was developed to improve hardenability and make material more appropriate for heat treatment
Selecting low alloy Mo steel powders for high performance applications
A review of the physical and mechanical properties along with the compaction behavior of alloy systems based on steel powders with various levels of pre-alloyed Mo
The development and characteristics of low alloy steel powders for sinter hardening applications
Microstructural characterization of diffusion-bonded PM materials
Modern prealloyed PM steels and advanced process technology
Nanometric surface modification of iron and steel powders
A study of surface modification of iron powders via displacement and electroless (autocatalytic) depositions of copper from aqueous solution were studied in the concentration range of 1-4wt% Cu
Optimizing powder mix formulations and processing conditions for warm compaction
Low alloy steel powders for sinter hardening applications
Fatigue properties of diffusion-bonded molybdenum steel powders for high strength applications
Comparison of the influence of different sintering conditions, cooling rates and heat treatment conditions on fatigue properties on two different alloying systems.