Add to ORKGNickel-based superalloys are a commonly used material in applications where high strength is required at high temperatures. A typical such example is jet engines and, in the case of polycrystalline nickel-based superalloys, components like turbine disks.Under severe loading conditions, such as cyclic loading combined with sustained dwell times at high temperatures, polycrystalline nickel-based superalloys are known to experience accelerated fatigue crack growth in oxygen-rich environments compared to vacuum. Environmentally assisted crack initiation could for example be identified as cause for turbine disk fracture in some cases of mechanical turbine failure of passenger airplanes.It has been shown by experimental work in the past that oxyg...
Oxygen induced crack growth is a serious concern for the performance of Ni-base superalloys. These a...
A cohesive zone model is utilized to simulate grain boundary interface decohesion under load reversa...
A cohesive zone model is utilized to simulate grain boundary interface decohesion under load reversa...
For nickel-based superalloys subjected to high temperatures and oxygen-rich environments, mechanical...
Oxidation-promoted crack growth, one of the major concerns for nickel-based superalloys, is closely ...
open access articleOxidation-promoted crack growth, one of the major concerns for nickel-based super...
Oxidation-promoted crack growth, one of the major concerns for nickel-based superalloys, is closely ...
Advanced microscopy characterisation and numerical modelling have been carried out to investigate ox...
Prediction of oxidation-assisted crack growth has been carried out for a nickel-based superalloy at ...
Finite element analyses of oxygen diffusion at the grain level have been carried out for a polycryst...
We present results from a numerical investigation of fracture along an embrittled surface embedded i...
The present paper summarizes experimental work to identify the mechanisms of dwell-time cracking dur...
The present paper summarizes experimental work to identify the mechanisms of dwell-time cracking dur...
Oxygen induced crack growth is a serious concern for the performance of Ni-base superalloys. These a...
A cohesive zone model is utilized to simulate grain boundary interface decohesion under load reversa...
Oxygen induced crack growth is a serious concern for the performance of Ni-base superalloys. These a...
A cohesive zone model is utilized to simulate grain boundary interface decohesion under load reversa...
A cohesive zone model is utilized to simulate grain boundary interface decohesion under load reversa...
For nickel-based superalloys subjected to high temperatures and oxygen-rich environments, mechanical...
Oxidation-promoted crack growth, one of the major concerns for nickel-based superalloys, is closely ...
open access articleOxidation-promoted crack growth, one of the major concerns for nickel-based super...
Oxidation-promoted crack growth, one of the major concerns for nickel-based superalloys, is closely ...
Advanced microscopy characterisation and numerical modelling have been carried out to investigate ox...
Prediction of oxidation-assisted crack growth has been carried out for a nickel-based superalloy at ...
Finite element analyses of oxygen diffusion at the grain level have been carried out for a polycryst...
We present results from a numerical investigation of fracture along an embrittled surface embedded i...
The present paper summarizes experimental work to identify the mechanisms of dwell-time cracking dur...
The present paper summarizes experimental work to identify the mechanisms of dwell-time cracking dur...
Oxygen induced crack growth is a serious concern for the performance of Ni-base superalloys. These a...
A cohesive zone model is utilized to simulate grain boundary interface decohesion under load reversa...
Oxygen induced crack growth is a serious concern for the performance of Ni-base superalloys. These a...
A cohesive zone model is utilized to simulate grain boundary interface decohesion under load reversa...
A cohesive zone model is utilized to simulate grain boundary interface decohesion under load reversa...