… , the simple alias shear deformation is employed in the present work to study the effect of
alloying element and temperature on the stacking fault energy of Ni-base superalloys. …

… alloys. We review the recent the studies of stacking faults, dislocations and twins in the novel
alloys. … and their applications in modeling stacking faults, relevant experimental progresses …

… In summary, the effect of 17 alloying elements on stacking fault energies of growth, deformation,
and EFs in Mg is investigated through first-principles calculations. It is observed that all …

… alloys—have been extensively studied due to their excellent mechanical performance. Although
we know many multiprincipal element alloys … partials and stacking faults can change in …

… They found that all alloying elements decrease the stacking fault energy of Ni. The
ductility and twinnability were discussed based on the calculated GSFE surfaces. They also …

… alloying elements Re, Ta, W, Ru and Ti on the generalized stacking fault energies, strength
and ductility of γ′-Ni 3 Al. The element Re effectively increases three kinds of generalized …

… of alloying elements to stacking faults and the interaction of substitutional and interstitial
alloying elements in solid … of the alloying elements (mainly nitrogen) on the stacking faults of the …

… In this work, we utilize atomistic simulations to calculate the generalized stacking fault … and
{134} – in two refractory multi-principal element alloys (MPEAs): MoNbTi and NbTiZr. To serve …

… Recently, high-entropy alloys (HEAs) consisting of multiple principle elements in equal or …
Surprisingly, these multi-principal-element alloys tend to form simple crystalline structures, …

… Stacking Fault Energy (SFE) is an intrinsic alloy property that governs much of the plastic
deformation mechanisms observed in fcc alloys… For multi-principal element alloys, we show that …