Add to ORKGAbstract. An electron microscopic analysis of the dislocation structure of the Ti3Al intermetallic after high-temperature deformation is performed. It is found that the microstructure of the samples deformed at T = 1073-1173 K contains mobile a, 2c+a and other c component superdislocations. Experimental data are discussed considering results of the computer simulation of the superdislocation core structure in Ti3Al
The deformation mechanism of the α+β alloys is still controversially reported in the literature as e...
The dynamical shear deformation-induced HCP -> FCC process in Ti3Al was systematically investigat...
study was carried out to investigate the mechanisms of superplastic deformation in two phase Ti-6Al-...
The temperature anomaly of the yield limit in the monocrystals of Ti*003Al at deviation from c orien...
International audienceThe dislocation configurations of a Ti2AlC-MAX phase deformed under severe pla...
The nature of dissociated superlattice dislocations in Mn-modified Al3Ti deformed at 673 K has been ...
Microscopic aspects of superplastic deformation in a 2-phase Ti3Al-Nb alloy were studied using trans...
AbstractSurface observations are used to elucidate the deformation mechanisms responsible for the su...
Surface observations are used to elucidate the deformation mechanisms responsible for the superplas...
The main thrust of the research presented in this thesis is atomistic studies of dislocations in cry...
A transmission electron microscope (TEM) investigation of surface defects contained in an as-grown T...
The microstructure and dislocation configuration of the Al67Co8Ti25 intermetallic compound were obse...
Deformation microstructures produced by compression on the alloys Ti-48Al and Ti-47.5Al 2.5Cr have b...
The main theme of this thesis is development of potentials that are a necessary precursor for comput...
Ti-6Al-4V is able to support high level of deformations like superplastic deformation for aeronautic...
The deformation mechanism of the α+β alloys is still controversially reported in the literature as e...
The dynamical shear deformation-induced HCP -> FCC process in Ti3Al was systematically investigat...
study was carried out to investigate the mechanisms of superplastic deformation in two phase Ti-6Al-...
The temperature anomaly of the yield limit in the monocrystals of Ti*003Al at deviation from c orien...
International audienceThe dislocation configurations of a Ti2AlC-MAX phase deformed under severe pla...
The nature of dissociated superlattice dislocations in Mn-modified Al3Ti deformed at 673 K has been ...
Microscopic aspects of superplastic deformation in a 2-phase Ti3Al-Nb alloy were studied using trans...
AbstractSurface observations are used to elucidate the deformation mechanisms responsible for the su...
Surface observations are used to elucidate the deformation mechanisms responsible for the superplas...
The main thrust of the research presented in this thesis is atomistic studies of dislocations in cry...
A transmission electron microscope (TEM) investigation of surface defects contained in an as-grown T...
The microstructure and dislocation configuration of the Al67Co8Ti25 intermetallic compound were obse...
Deformation microstructures produced by compression on the alloys Ti-48Al and Ti-47.5Al 2.5Cr have b...
The main theme of this thesis is development of potentials that are a necessary precursor for comput...
Ti-6Al-4V is able to support high level of deformations like superplastic deformation for aeronautic...
The deformation mechanism of the α+β alloys is still controversially reported in the literature as e...
The dynamical shear deformation-induced HCP -> FCC process in Ti3Al was systematically investigat...
study was carried out to investigate the mechanisms of superplastic deformation in two phase Ti-6Al-...