Add to ORKGIn TiAl alloys the lamellar spacing influences the elastic, plastic, and creep behavior. To predict the alloy behavior a microstructure-sensitive modeling has to be established that is able to capture local plasticity for variable lamellae thickness. The classical micro-mechanical models (e.g., crystal plasticity model) do not contain any structural size-effect; thus, they are not sensitive to the microstructural variation. To overcome this limitation we have introduced intrinsic (material) length scale, as derived from the Tailor dislocation model, in the crystal plasticity constitute behavior. The model allows us to predict local plasticity and global Hall-petch effects as a contribution of statistically stored and geometrically necessar...
The relative activity of deformation systems during work hardening and thermal recovery has been inv...
Two-phase (α2Ti3Al+γTiAl) fully lamellar TiAl alloys show highly anisotropic creep behaviour. Depend...
Size effect is a crucial phenomenon in the microforming processes of metallic alloys involving only ...
The influences of the microstructrual heterogeneity on the local and global mechanical behavior of a...
The multi-phase TiAl intermetallics for the application in aero-engine turbine blades have complex m...
Two-phase TiAl alloys with generic microstructure of duplex to lamellar are simulated using a crysta...
In this article, we present a strategy to decouple the relative influences of colony, domain and lam...
Micro and meso scale deformation behavior of a (a2+g) TiAl alloy has been investigated by multiscale...
-TiAl alloys are very promising for high temperature structural applications due to their excellent ...
The 3-dimensional microstructure of a duplex g-TiAl has been modeled in a parameterized FE-model usi...
A multiscale approach to modelling size effect in crystal plasticity is presented. At the microscale...
Room-temperature deformation of a niobium-rich TiAl alloy with duplex microstructure has been numeri...
International audienceA long-standing problem in the modelling of polycrystal behavior from the know...
Grain size, volume fraction of constituent phases, lamellar spacing and lamellar orientation are the...
The miniaturization trends on electronic components manufacturing, have challenged conventional know...
The relative activity of deformation systems during work hardening and thermal recovery has been inv...
Two-phase (α2Ti3Al+γTiAl) fully lamellar TiAl alloys show highly anisotropic creep behaviour. Depend...
Size effect is a crucial phenomenon in the microforming processes of metallic alloys involving only ...
The influences of the microstructrual heterogeneity on the local and global mechanical behavior of a...
The multi-phase TiAl intermetallics for the application in aero-engine turbine blades have complex m...
Two-phase TiAl alloys with generic microstructure of duplex to lamellar are simulated using a crysta...
In this article, we present a strategy to decouple the relative influences of colony, domain and lam...
Micro and meso scale deformation behavior of a (a2+g) TiAl alloy has been investigated by multiscale...
-TiAl alloys are very promising for high temperature structural applications due to their excellent ...
The 3-dimensional microstructure of a duplex g-TiAl has been modeled in a parameterized FE-model usi...
A multiscale approach to modelling size effect in crystal plasticity is presented. At the microscale...
Room-temperature deformation of a niobium-rich TiAl alloy with duplex microstructure has been numeri...
International audienceA long-standing problem in the modelling of polycrystal behavior from the know...
Grain size, volume fraction of constituent phases, lamellar spacing and lamellar orientation are the...
The miniaturization trends on electronic components manufacturing, have challenged conventional know...
The relative activity of deformation systems during work hardening and thermal recovery has been inv...
Two-phase (α2Ti3Al+γTiAl) fully lamellar TiAl alloys show highly anisotropic creep behaviour. Depend...
Size effect is a crucial phenomenon in the microforming processes of metallic alloys involving only ...