Add to ORKGCreep lifetime of turbine blade material subjected to sustained centrifugal forces at elevated temperatures is limited by accumulated inelastic deformation and creep crack growth (CCG). Creep resistance exhibited in conventionally cast polycrystalline (PC) Ni-base superalloy components has been enhanced via solidification techniques. Directional solidification (DS) results in large grain sizes with limited misorientation at grain boundaries. The present study focuses on a Ni-base superalloy in DS form at 871ºC. Data obtained from deformation experiments performed on longitudinal (L) and transverse (T) specimens are used to develop an anisotropic elasto-creep material model. Simulated time-dependent, asymptotic crack tip fields of compact te...
A multi-scale, mechanistic model is developed to describe and predict the dwell-fatigue crack growth...
The high-temperature sustained load crack growth behaviour of a Ni-base superalloy was investigated ...
AbstractAeroengine components are often affected by high temperature creep-fatigue mechanisms which ...
Directionally solidified (DS) Ni-base superalloys are commonly used as gas turbine materials to prim...
Directionally-solidified (DS) Ni-base superalloys are commonly applied as turbine materials to prima...
Directionally solidified (DS) Ni-base superalloys have become a commonly used material in gas turbin...
Cyclic plasticity and creep are the primary design considerations of 1st and 2nd stage gas turbine b...
Both polycrystalline (PC) and directionally-solidified (DS) Ni-base superalloys are commonly applied...
Turbine blades derived from directionally solidified (DS) Ni-base superalloys are increasingly emplo...
Combustion gas turbine components designed for application in power generation equipment are subject...
This work concerns the microstructure and the anisotropic mechanical behaviour of several, chosen ni...
In this work a physics based creep model is presented to predict the behaviour in the Nickel based s...
Nickel-based singe crystal superalloys are a class of metallic materials with a combination of high-...
Different cooling paths from a supersolvus temperature have been applied to FGH96, a polycrystalline...
Despite the advent of single crystal turbine blades, the aerospace and industrial gas turbine indust...
A multi-scale, mechanistic model is developed to describe and predict the dwell-fatigue crack growth...
The high-temperature sustained load crack growth behaviour of a Ni-base superalloy was investigated ...
AbstractAeroengine components are often affected by high temperature creep-fatigue mechanisms which ...
Directionally solidified (DS) Ni-base superalloys are commonly used as gas turbine materials to prim...
Directionally-solidified (DS) Ni-base superalloys are commonly applied as turbine materials to prima...
Directionally solidified (DS) Ni-base superalloys have become a commonly used material in gas turbin...
Cyclic plasticity and creep are the primary design considerations of 1st and 2nd stage gas turbine b...
Both polycrystalline (PC) and directionally-solidified (DS) Ni-base superalloys are commonly applied...
Turbine blades derived from directionally solidified (DS) Ni-base superalloys are increasingly emplo...
Combustion gas turbine components designed for application in power generation equipment are subject...
This work concerns the microstructure and the anisotropic mechanical behaviour of several, chosen ni...
In this work a physics based creep model is presented to predict the behaviour in the Nickel based s...
Nickel-based singe crystal superalloys are a class of metallic materials with a combination of high-...
Different cooling paths from a supersolvus temperature have been applied to FGH96, a polycrystalline...
Despite the advent of single crystal turbine blades, the aerospace and industrial gas turbine indust...
A multi-scale, mechanistic model is developed to describe and predict the dwell-fatigue crack growth...
The high-temperature sustained load crack growth behaviour of a Ni-base superalloy was investigated ...
AbstractAeroengine components are often affected by high temperature creep-fatigue mechanisms which ...