Add to ORKGAbstract First principle calculations have been carried out to study energetic of boron atom impurities in bulk and symmetric R5(310) tilt grain boundaries of the ordered stoe-chiometric B2 FeAl intermetallic. A set of configurations was considered for studying the bulk behaviour: B in tetrahedral and octahedral interstitial positions or substituting Al and Fe. For the analysis of the segregation at the grain boundary, calculations were done for B substituting Al and Fe at three different locations and for B filling empty spaces along the interface. In each case, the defect formation energies were calculated to determine the site preference and their relative stability. The results indicate that B doping is metastable in the bulk and tends ...
The investigation of hydrogen, boron and carbon sorption properties at the Σ5(310) symmetrical tilt ...
The local variation of grain boundary atomic structure and chemistry caused by segregation of impuri...
Using first principles electronic structure methods, we calculate the effects of boron impurities in...
International audienceIntermetallic alloys are often doped with boron to suppress their intrinsic ro...
Studies of grain boundaries may be helpful in understanding the brittleness of the B2 ordered alloy ...
Abstract. Studies of grain boundaries may be helpful in understanding the brittleness of the B2 ordc...
This research is an atomistic study of structural and chemical features of grain boundaries in disor...
International audienceThe structures and energies of point defects and point defect complexes in B 2...
Boron analysis of B doped FeAl alloys, in the as-cast condition, can give surprising results : large...
Formation-energy formalism for a general interface is developed and applied to alpha-Fe host with bo...
The ASED-MO theory is used to study the effects of H and the H{single bond}C and H{single bond}B pai...
The effect of interstitial and substitutional impurities on grain boundary (GB) cohesion in the seri...
The influence of interstitial impurities such as B and C on the H-induced Fe Σ5(310) symmetrical til...
: We examine the correlation between the interaction energies used in a nearest neighbour mean field...
The investigation of hydrogen, boron and carbon sorption properties at the Σ5(310) symmetrical tilt ...
The local variation of grain boundary atomic structure and chemistry caused by segregation of impuri...
Using first principles electronic structure methods, we calculate the effects of boron impurities in...
International audienceIntermetallic alloys are often doped with boron to suppress their intrinsic ro...
Studies of grain boundaries may be helpful in understanding the brittleness of the B2 ordered alloy ...
Abstract. Studies of grain boundaries may be helpful in understanding the brittleness of the B2 ordc...
This research is an atomistic study of structural and chemical features of grain boundaries in disor...
International audienceThe structures and energies of point defects and point defect complexes in B 2...
Boron analysis of B doped FeAl alloys, in the as-cast condition, can give surprising results : large...
Formation-energy formalism for a general interface is developed and applied to alpha-Fe host with bo...
The ASED-MO theory is used to study the effects of H and the H{single bond}C and H{single bond}B pai...
The effect of interstitial and substitutional impurities on grain boundary (GB) cohesion in the seri...
The influence of interstitial impurities such as B and C on the H-induced Fe Σ5(310) symmetrical til...
: We examine the correlation between the interaction energies used in a nearest neighbour mean field...
The investigation of hydrogen, boron and carbon sorption properties at the Σ5(310) symmetrical tilt ...
The local variation of grain boundary atomic structure and chemistry caused by segregation of impuri...
Using first principles electronic structure methods, we calculate the effects of boron impurities in...