Journal articleAn improved unified cyclic viscoplastic material model for high temperature fatigue of P91 steel is presented. The primary enhancement over existing models is in relation to strain-rate independence of parameters, for accurate interpolation and extrapolation across a range of strain-rates and stress regimes, as relevant to flexible operation of high temperature power generation plant. The model combines a hyperbolic sine constitutive equation with anisothermal cyclic evolution of isotropic and kinematic hardening variables. The material model is developed from a thermodynamic framework and is implemented in multi-axial form within a user material subroutine. The user material subroutine is calibrated and validated for P91 ste...
The transition from base-load to intermittent power plant operation has led to the requirement for i...
The thermo-mechanical fatigue (TMF) of power plant components is caused by the cyclic operation of p...
Societal pressures are mounting on electricity operators to operate traditional fossil-fuel power pl...
Journal articleThis paper presents a novel multiaxial, cyclic viscoplasticity material model for hig...
The finite element (FE) implementation of a hyperbolic sine unified cyclic viscoplasticity model is ...
Improving the understanding of the long term rate dependent behaviour of materials is of critical im...
This paper deals with the identification of material constants to simulate the effect of cyclic mech...
An experimental programme of cyclic thermo-mechanical testing for a P91 power plant steel, under iso...
This paper presents a dislocation-mechanics cyclic viscoplasticity model which incorporates the key ...
The thermo-mechanical fatigue (TMF) of power plant components is caused by the cyclic operation of p...
AbstractAn experimental programme of cyclic thermo-mechanical testing for a P91 power plant steel, u...
This paper deals with the determination of material constitutive model for P91 and P92 steels at hig...
A service-aged P91 steel was used to perform an experimental program of cyclic mechanical testing in...
The transition from base-load to intermittent power plant operation has led to the requirement for i...
The thermo-mechanical fatigue (TMF) of power plant components is caused by the cyclic operation of p...
Societal pressures are mounting on electricity operators to operate traditional fossil-fuel power pl...
Journal articleThis paper presents a novel multiaxial, cyclic viscoplasticity material model for hig...
The finite element (FE) implementation of a hyperbolic sine unified cyclic viscoplasticity model is ...
Improving the understanding of the long term rate dependent behaviour of materials is of critical im...
This paper deals with the identification of material constants to simulate the effect of cyclic mech...
An experimental programme of cyclic thermo-mechanical testing for a P91 power plant steel, under iso...
This paper presents a dislocation-mechanics cyclic viscoplasticity model which incorporates the key ...
The thermo-mechanical fatigue (TMF) of power plant components is caused by the cyclic operation of p...
AbstractAn experimental programme of cyclic thermo-mechanical testing for a P91 power plant steel, u...
This paper deals with the determination of material constitutive model for P91 and P92 steels at hig...
A service-aged P91 steel was used to perform an experimental program of cyclic mechanical testing in...
The transition from base-load to intermittent power plant operation has led to the requirement for i...
The thermo-mechanical fatigue (TMF) of power plant components is caused by the cyclic operation of p...
Societal pressures are mounting on electricity operators to operate traditional fossil-fuel power pl...