In this thesis, the role of location-specific microstructural features in the fatigue performance of the safety-critical aerospace components made of Nickel (Ni)-base superalloys and linear friction welded (LFW) Titanium (Ti) alloys has been studied using crystal plasticity finite element (CPFE) simulations, energy dispersive X-ray diffraction (EDD), backscatter electron (BSE) images and digital image correlation (DIC). In order to develop a microstructure-sensitive fatigue life prediction framework, first, it is essential to build trust in the quantitative prediction from CPFE analysis by quantifying uncertainties in the mechanical response from CPFE simulations. Second, it is necessary to construct a unified fatigue life prediction metric...
It is of significance to reveal the low-cycle fatigue deformation mechanism of titanium alloy with t...
This thesis develops novel micromechanical and multi-scale models of deformation and fatigue crack n...
In probabilistic design of materials for fracture-critical components in modern military turbine eng...
In this thesis, the role of location-specific microstructural features in the fatigue performance of...
Fatigue crack initiation in polycrystalline materials can be attributed to various mechanistic and m...
Predicting when and where materials fail is a holy grail for structural materials engineering. Devel...
The simulation and design of advanced materials for fatigue resistance requires an understanding of ...
International audienceMicrostructurally small cracks exhibit large variability in their fatigue crac...
AbstractThe objective of this research is to estimate the microstructure dependence of the extreme v...
Alloys used for turbine blades have to safely sustain severe thermomechanical loadings during servic...
Identifying the small fatigue crack (SFC) driving force of polycrystalline engineering alloys is ins...
Identifying the small fatigue crack (SFC) driving force of polycrystalline engineering alloys is ins...
This thesis showcases a set of computational and statistical approaches with applications in integra...
Fatigue is a difficult multi-scale modelling problem nucleating from localised plasticity at the sca...
International audienceExisting methods for computing the life of critical components in jet engines,...
It is of significance to reveal the low-cycle fatigue deformation mechanism of titanium alloy with t...
This thesis develops novel micromechanical and multi-scale models of deformation and fatigue crack n...
In probabilistic design of materials for fracture-critical components in modern military turbine eng...
In this thesis, the role of location-specific microstructural features in the fatigue performance of...
Fatigue crack initiation in polycrystalline materials can be attributed to various mechanistic and m...
Predicting when and where materials fail is a holy grail for structural materials engineering. Devel...
The simulation and design of advanced materials for fatigue resistance requires an understanding of ...
International audienceMicrostructurally small cracks exhibit large variability in their fatigue crac...
AbstractThe objective of this research is to estimate the microstructure dependence of the extreme v...
Alloys used for turbine blades have to safely sustain severe thermomechanical loadings during servic...
Identifying the small fatigue crack (SFC) driving force of polycrystalline engineering alloys is ins...
Identifying the small fatigue crack (SFC) driving force of polycrystalline engineering alloys is ins...
This thesis showcases a set of computational and statistical approaches with applications in integra...
Fatigue is a difficult multi-scale modelling problem nucleating from localised plasticity at the sca...
International audienceExisting methods for computing the life of critical components in jet engines,...
It is of significance to reveal the low-cycle fatigue deformation mechanism of titanium alloy with t...
This thesis develops novel micromechanical and multi-scale models of deformation and fatigue crack n...
In probabilistic design of materials for fracture-critical components in modern military turbine eng...