The activation of deformation mechanisms in face-centered cubic materials is considered
closely related with the stacking fault energy. Experimentally determined stacking fault …

The effect of boron do** in Fe 50− X Mn 30 Co 10 Cr 10 BX multi-component alloys on the
resulting stacking fault energy has been experimentally and computationally assessed to …

The properties of high-entropy alloys (HEAs) depend primarily on the composition and
content of elements. However, getting the optimal composition of alloying elements through …

This study aims to reduce the size and density of He bubbles and dislocation loops during
the irradiation process by constructing nanostructure engineering through precipitation. The …

In the quest for excellent light-structural materials that can withstand mechanical extremes
for advanced applications, design and control of microstructures beyond current material …

The microstructure of lightweight alloys is of a primary interest for manufacturing companies
since it affects mechanical strength, crash, corrosion and esthetic properties. Numerical and …

Most alloys change from ductile to brittle at cryogenic temperatures, whereas high-entropy
alloys show better strength, ductility, and toughness. However, they suffer from cost and …

Although the seemingly negative effect of deformation-induced martensite (DIM) volume
fraction on the impact toughness of austenitic steels has been well documented, it relies …

The synergistic interaction of interstitial carbon (C)/oxygen (O), alloying Cr/Ni and vacancy
as well as diffusion property of C/O in dilute austenitic iron (Fe) alloys were investigated …

In this study, to evaluate the stability of the micro phase in the non-magnetic steel, the
20Mn23AlV high-manganese non-magnetic structural steel was compressed at room …