Add to ORKGRoom temperature deformation behaviour of niobium-containing two-phase TiAl alloy has been investigated numerically using a two-scale micromechanical finite element model. A polycrystal with duplex microstructure consisting of globular and lamellar grains is modeled with 3D unit cells that take into account specific volume fractions and orientations of the grains. The globular unit cell is described by representative volume elements of γ-phases whereas the lamellar unit cell is constructed with representative volume elements of α2 and γ-phases (matrix and twin γ-phases with their orientation relationships). The constitutive behaviour of the phases is described by a continuum mechanics based crystal plasticity model with a rate-dependent vis...
International audienceThe current understanding of room temperature microplasticity in α/β titanium ...
The present work deals with the modeling and simulation of deformation and fracture behavior of full...
Plastic deformation and fracture in polysynthetically twinned (PST) crystals of TiAl have been simul...
Room temperature deformation behavior of niobium-containing two-phase TiAl alloy has been investigat...
Room-temperature deformation of a niobium-rich TiAl alloy with duplex microstructure has been numeri...
The 3-dimensional microstructure of a duplex g-TiAl has been modeled in a parameterized FE-model usi...
The influences of the microstructrual heterogeneity on the local and global mechanical behavior of a...
-TiAl alloys are very promising for high temperature structural applications due to their excellent ...
Two-phase TiAl alloys with generic microstructure of duplex to lamellar are simulated using a crysta...
The multi-phase TiAl intermetallics for the application in aero-engine turbine blades have complex m...
Micro and meso scale deformation behavior of a (a2+g) TiAl alloy has been investigated by multiscale...
A TiAl-Nb alloy was prepared by casting, and its tensile properties and microstructure evolution at ...
TiAl-alloys exhibit complex microstructures, which involve in so called “lamellar” or “duplex” alloy...
The mechanical properties of TiAl alloys are very sensitive to the inherent microstructure. For an i...
Intermetallic g-TiAl based alloys are promising materials for lightweight high-temperature applicati...
International audienceThe current understanding of room temperature microplasticity in α/β titanium ...
The present work deals with the modeling and simulation of deformation and fracture behavior of full...
Plastic deformation and fracture in polysynthetically twinned (PST) crystals of TiAl have been simul...
Room temperature deformation behavior of niobium-containing two-phase TiAl alloy has been investigat...
Room-temperature deformation of a niobium-rich TiAl alloy with duplex microstructure has been numeri...
The 3-dimensional microstructure of a duplex g-TiAl has been modeled in a parameterized FE-model usi...
The influences of the microstructrual heterogeneity on the local and global mechanical behavior of a...
-TiAl alloys are very promising for high temperature structural applications due to their excellent ...
Two-phase TiAl alloys with generic microstructure of duplex to lamellar are simulated using a crysta...
The multi-phase TiAl intermetallics for the application in aero-engine turbine blades have complex m...
Micro and meso scale deformation behavior of a (a2+g) TiAl alloy has been investigated by multiscale...
A TiAl-Nb alloy was prepared by casting, and its tensile properties and microstructure evolution at ...
TiAl-alloys exhibit complex microstructures, which involve in so called “lamellar” or “duplex” alloy...
The mechanical properties of TiAl alloys are very sensitive to the inherent microstructure. For an i...
Intermetallic g-TiAl based alloys are promising materials for lightweight high-temperature applicati...
International audienceThe current understanding of room temperature microplasticity in α/β titanium ...
The present work deals with the modeling and simulation of deformation and fracture behavior of full...
Plastic deformation and fracture in polysynthetically twinned (PST) crystals of TiAl have been simul...