Add to ORKGIn order to increase the corrosion resistance and simultaneously maintain the creep resistance of 9–12% Cr steels at 650 °C, a new alloy design concept was proposed, using thermodynamically stable Z-phase (CrTaN) precipi- tates to strengthen the steel. A new trial Z-phase strengthened 12% Cr steel was produced and creep tested. The steel exhibited good long-term creep resistance. Dense nano-sized Z-phase precipitates were formed at an early stage, and coarsened slowly. They remained small after more than 10,000 h
Higher steam temperature in steam power plants increases their thermal efficiency. Thus there is a s...
The microstructure of two different types of Z-phase strengthened experimental steels, CrNbN-based o...
In creep resistant Z-phase strengthened 12% Cr steels, MX to Z-phase transformation plays an importa...
In order to increase the corrosion resistance and simultaneously maintain the creep resistance of 9–...
Fossil-fuel fired steam power plants provide more than 60% of the electricity generated worldwide, a...
Fossil-fuel fired steam power plants provide more than 60% of the electricity generated worldwide, a...
Compositionally complex Z-phase strengthened 12% Chromium steels are considered as potentially viabl...
In this study, the long term creep strength behavior of commercial heat resistant martensitic/ferrit...
A new alloy design concept for martensitic / ferritic steels aiming for 650\ub0C – the Zphasestrengt...
Two Z-phase strengthened 12% Cr steels were investigated: they are similar in composition, however o...
Z-phase strengthened 12% Cr steels are designed to combine good corrosion and creep resistance for a...
The microstructure of two Z-phase strengthened steels was characterized in different heat treatment ...
The size and distribution of Cr(V,Nb)N (Z-phase) particles in a 9Cr-3Co-2W-0.6Mo-0.1Ni-0.2V-0.06Nb-0...
The Z-phase (CrVN) precipitation in a 9% Cr-3% Co martensitic steel during creep at 923 K and 948 K ...
Prospects of commercial use of new-generation martensitic thermomechanical steels created on the bas...
Higher steam temperature in steam power plants increases their thermal efficiency. Thus there is a s...
The microstructure of two different types of Z-phase strengthened experimental steels, CrNbN-based o...
In creep resistant Z-phase strengthened 12% Cr steels, MX to Z-phase transformation plays an importa...
In order to increase the corrosion resistance and simultaneously maintain the creep resistance of 9–...
Fossil-fuel fired steam power plants provide more than 60% of the electricity generated worldwide, a...
Fossil-fuel fired steam power plants provide more than 60% of the electricity generated worldwide, a...
Compositionally complex Z-phase strengthened 12% Chromium steels are considered as potentially viabl...
In this study, the long term creep strength behavior of commercial heat resistant martensitic/ferrit...
A new alloy design concept for martensitic / ferritic steels aiming for 650\ub0C – the Zphasestrengt...
Two Z-phase strengthened 12% Cr steels were investigated: they are similar in composition, however o...
Z-phase strengthened 12% Cr steels are designed to combine good corrosion and creep resistance for a...
The microstructure of two Z-phase strengthened steels was characterized in different heat treatment ...
The size and distribution of Cr(V,Nb)N (Z-phase) particles in a 9Cr-3Co-2W-0.6Mo-0.1Ni-0.2V-0.06Nb-0...
The Z-phase (CrVN) precipitation in a 9% Cr-3% Co martensitic steel during creep at 923 K and 948 K ...
Prospects of commercial use of new-generation martensitic thermomechanical steels created on the bas...
Higher steam temperature in steam power plants increases their thermal efficiency. Thus there is a s...
The microstructure of two different types of Z-phase strengthened experimental steels, CrNbN-based o...
In creep resistant Z-phase strengthened 12% Cr steels, MX to Z-phase transformation plays an importa...