Add to ORKGHigh-performance applications of powder metallurgy (PM) steel components are limited by the presence of porosity which contributes to the inferior properties as compared to the wrought material. PM steels, in order to meet the performance demand, require a fully dense material for improved properties. In this study, enhanced densification is achieved through several process routes, such as (1) liquid phase sintering with master alloy, (2) double pressing-double sintering, (3) cold isostatic pressing followed by high-temperature sintering, and (4) high velocity compaction. All these approaches ensure surface pore closure by reaching density levels > 95 % after sintering and capsule free hot isostatic pressing is performed to reach full de...
The properties of powder metallurgical, PM, components are dependent on that the dilemma of full den...
The work presented has the ultimate aim to increase dynamic mechanical properties by improvements in...
This paper is based on a presentation at Euro PM 2012 organised by EPMA in Basel, Switzerland on 16–...
Powder metallurgy (PM) is one of the most cost effective methods for manufacturing structural compon...
Powder metallurgy (PM) is one of the most resource-efficient methods for manufacturing structural co...
High-density powder metallurgy (PM) components are required for high-performance applications. Liqui...
Powder metallurgy (PM) provides resource- and cost-efficient routes to create near-net shape product...
Powder metallurgy (PM) steel with enhanced density is essential for meeting the demands on high stre...
High performance comes with full density. Full-density, net-shape water-atomized powder compacts hav...
Reaching high density in PM steels is important for high-performance applications. In this study, li...
Reaching higher densities is one of the biggest challenges for PM products today. This paper present...
Powder Metallurgy (PM) is technology well known for mass production of parts at low cost but usually...
A novel approach to reach full density in powder metallurgy (PM) components is demonstrated in this ...
Reaching high density in PM steels is important for high-performance applications. In this study, li...
To improve the mechanical properties and performances of water-atomized powder metallurgy steels, it...
The properties of powder metallurgical, PM, components are dependent on that the dilemma of full den...
The work presented has the ultimate aim to increase dynamic mechanical properties by improvements in...
This paper is based on a presentation at Euro PM 2012 organised by EPMA in Basel, Switzerland on 16–...
Powder metallurgy (PM) is one of the most cost effective methods for manufacturing structural compon...
Powder metallurgy (PM) is one of the most resource-efficient methods for manufacturing structural co...
High-density powder metallurgy (PM) components are required for high-performance applications. Liqui...
Powder metallurgy (PM) provides resource- and cost-efficient routes to create near-net shape product...
Powder metallurgy (PM) steel with enhanced density is essential for meeting the demands on high stre...
High performance comes with full density. Full-density, net-shape water-atomized powder compacts hav...
Reaching high density in PM steels is important for high-performance applications. In this study, li...
Reaching higher densities is one of the biggest challenges for PM products today. This paper present...
Powder Metallurgy (PM) is technology well known for mass production of parts at low cost but usually...
A novel approach to reach full density in powder metallurgy (PM) components is demonstrated in this ...
Reaching high density in PM steels is important for high-performance applications. In this study, li...
To improve the mechanical properties and performances of water-atomized powder metallurgy steels, it...
The properties of powder metallurgical, PM, components are dependent on that the dilemma of full den...
The work presented has the ultimate aim to increase dynamic mechanical properties by improvements in...
This paper is based on a presentation at Euro PM 2012 organised by EPMA in Basel, Switzerland on 16–...