Add to ORKGAlthough primary stage is often neglected in creep design, in several alloys for high temperature applications, most of the allowable design strain can occurs before reaching the minimum creep rate. The kinetic of the primary creep stage is important since it determines the microstuctural conditions for the subsequent creep regime. Under rapid stress change creep transient occurs and, according to the developed dislocation substructure, a stress dependence of the creep rate is observed. In order to account for these features in the material response, an appropriate modelling is required. Assuming that the current creep rate in the transient regime can be expressed as a function of the steady state creep rate, a model based on the evolution ...
Process of creep deformation is rather complex, consisting of many interconnected subprocesses, main...
Creep deformation in metals and alloys at intermediate temperatures and low stresses are attributed ...
Creep experiments were conducted using high-purity polycrystalline copper at 78°K and 300°K. The res...
Although primary stage is often neglected in creep design, in several alloys for high temperature ap...
In many high temperature applications the accumulation of creep strain during the primary stage cann...
In high temperature design, the accumulation of creep strain during the primary stage has to be cons...
In the high temperature component design the accumulation of creep strain during the primary stage c...
Design specifications for new generation of power plants require materials to perform at higher temp...
In creep design, not only secondary creep but also primary and tertiary creep regimes become importa...
The increasing demand of reliable creep design for very long lives (exceeding 100.000 h), as those f...
Many sustainable technologies for energy production, for example, generation IV nuclear system, dema...
The different substructures that form in the power-law and exponential creep regimes for single phas...
The shape of the strain transient following a sudden stress change (drop or increment) during steady...
Although it is often said that diffusional flow creep is out of the practical engineering applicatio...
An advanced creep modeling, based on dislocation mechanics and incorporating damage effects, is deve...
Process of creep deformation is rather complex, consisting of many interconnected subprocesses, main...
Creep deformation in metals and alloys at intermediate temperatures and low stresses are attributed ...
Creep experiments were conducted using high-purity polycrystalline copper at 78°K and 300°K. The res...
Although primary stage is often neglected in creep design, in several alloys for high temperature ap...
In many high temperature applications the accumulation of creep strain during the primary stage cann...
In high temperature design, the accumulation of creep strain during the primary stage has to be cons...
In the high temperature component design the accumulation of creep strain during the primary stage c...
Design specifications for new generation of power plants require materials to perform at higher temp...
In creep design, not only secondary creep but also primary and tertiary creep regimes become importa...
The increasing demand of reliable creep design for very long lives (exceeding 100.000 h), as those f...
Many sustainable technologies for energy production, for example, generation IV nuclear system, dema...
The different substructures that form in the power-law and exponential creep regimes for single phas...
The shape of the strain transient following a sudden stress change (drop or increment) during steady...
Although it is often said that diffusional flow creep is out of the practical engineering applicatio...
An advanced creep modeling, based on dislocation mechanics and incorporating damage effects, is deve...
Process of creep deformation is rather complex, consisting of many interconnected subprocesses, main...
Creep deformation in metals and alloys at intermediate temperatures and low stresses are attributed ...
Creep experiments were conducted using high-purity polycrystalline copper at 78°K and 300°K. The res...