Using binder-treatment technology for high performance steel powder mixes
Review of the physical, green and sintered properties of binder-treated materials
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
The development and characteristics of low alloy steel powders for sinter hardening applications
Modern prealloyed PM steels and advanced process technology
Influence of powder mix formulation on green and sintered properties of warm pressed specimens
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.
Effect of sintering temperature and carbon content on static and dynamic properties of diffusion-bonded steels
Effects of copper addition on properties of 1.5% Mo sintered steels
Effect of molybdenum content on mechanical properties of sintered PM steels
The tensile and dynamic properties of low alloy steel powders containing various levels of prealloyed molybdenum. The effect of admixing or diffusion bounding Ni and Cu to these Mo-steels is discussed with respect to axial fatigue properties and strength
Effect of Ni and Cu addition on pre-alloyed Mo powders designed for high performance applications
Evaluation of the impact of addition of Ni and Cu on the mechanical properties of steel powder mixes containing pre-alloyed Mo