Add to ORKGCreep rupture stresses at temperatures between 723-923 K have been estimated at a rupture life of 2.63×105 h for mod. 9Cr-iMo steel, using short-term tests data. Larson-Miller Parameter (LMP) and artifical neural network (ANN) approaches have been employed for extrapolation. The results are compared with extrapolated RCC-MR code data
9–12% Cr martensitic steels are widely used for critical components of new, high-efficiency, ultra-s...
A heat resistant steel, 1.25Cr-1Mo-0.25V, produced by a casting process and used in the manufacture ...
Preferred models for creep rupture strength prediction have been evaluated for the parent and cross-...
Of the conventional time-temperature parameters (TTP's) for creep rupture, one of the most common is...
Of the conventional time-temperature parameters (TTP's) for creep rupture, one of the most common is...
Creep rupture extrapolation is crucial for high-temperature materials served in power plants. Many a...
Designers of new power-generation plants are looking to make use of new and existing high-strength a...
This paper highlights a comparative assessment of creep life of 1.25Cr-0.5Mo, 2.25Cr-1Mo and modifie...
The methodology proposed here adopts short-term stress relaxation testing (SRT) to predict creep str...
Creep is a time dependent deformation of material at constant load and constant temperature. Dif...
Low cycle fatigue (LCF) behaviour of normalized and tempered modified 9Cr-1Mo steel has been studied...
AbstractCreep life prediction of modified 9Cr-1Mo steel under multiaxial state of stress has been ca...
Traditional alloy design which requires deep understanding of the Process–Structure–Property relatio...
Components in-service at temperature are most likely designed with a creep strain limit achieved in ...
New relationships, incorporating the activation energy for matrix diffusion (300 kJ mol-1) and the u...
9–12% Cr martensitic steels are widely used for critical components of new, high-efficiency, ultra-s...
A heat resistant steel, 1.25Cr-1Mo-0.25V, produced by a casting process and used in the manufacture ...
Preferred models for creep rupture strength prediction have been evaluated for the parent and cross-...
Of the conventional time-temperature parameters (TTP's) for creep rupture, one of the most common is...
Of the conventional time-temperature parameters (TTP's) for creep rupture, one of the most common is...
Creep rupture extrapolation is crucial for high-temperature materials served in power plants. Many a...
Designers of new power-generation plants are looking to make use of new and existing high-strength a...
This paper highlights a comparative assessment of creep life of 1.25Cr-0.5Mo, 2.25Cr-1Mo and modifie...
The methodology proposed here adopts short-term stress relaxation testing (SRT) to predict creep str...
Creep is a time dependent deformation of material at constant load and constant temperature. Dif...
Low cycle fatigue (LCF) behaviour of normalized and tempered modified 9Cr-1Mo steel has been studied...
AbstractCreep life prediction of modified 9Cr-1Mo steel under multiaxial state of stress has been ca...
Traditional alloy design which requires deep understanding of the Process–Structure–Property relatio...
Components in-service at temperature are most likely designed with a creep strain limit achieved in ...
New relationships, incorporating the activation energy for matrix diffusion (300 kJ mol-1) and the u...
9–12% Cr martensitic steels are widely used for critical components of new, high-efficiency, ultra-s...
A heat resistant steel, 1.25Cr-1Mo-0.25V, produced by a casting process and used in the manufacture ...
Preferred models for creep rupture strength prediction have been evaluated for the parent and cross-...