Add to ORKGThe purpose of this diploma project has been to investigate the elastic properties of hexagonal close-packed Fe-Ni-Mg alloys at high pressure. Recent research has suggested that iron and magnesium can form an alloy under high pressure because of the great compressibility of the magnesium atoms. This also makes it possible for magnesium alloying with nickel atoms which are very similar to iron so that we get Fe-Ni-Mg alloys. Learning more about the elastic properties of iron alloys at high pressure will give us a better understanding of the inner core of our planet, which is believed to be composed primarily of iron. The calculations are based on a ab-inito method supported on the Density Functional Theory. The calculations were performed wi...
In this paper, the basic electronic structures and elastic properties of Ni3Al doping with alloying ...
International audienceThe density of liquid iron-nickel-sulfur (Fe 46.5 Ni 28.5 S 25) alloy was dete...
International audienceThe density of liquid iron-nickel-sulfur (Fe 46.5 Ni 28.5 S 25) alloy was dete...
Stresses and impurities may influence elastic properties, phase stability and magnetic behavior of m...
In this thesis, material properties have been examined under extreme conditions in computer-based ca...
In this thesis, material properties have been examined under extreme conditions in computer-based ca...
International audienceIron-nickel alloys are considered the main components of Earth and Super-Earth...
At the time of the 50th anniversary of the Kohn-Sham method, ab initio calculations based on density...
Using density functional theory formulated within the framework of the exact muffin-tin orbitals met...
The Earth’s core is primarily composed of iron, alloyed with 5-20% nickel. Interpretation of the hi...
The Earth’s core is primarily composed of iron, alloyed with 5-20% nickel. Interpretation of the hi...
The Earth’s core is largely composed of iron (Fe), alloyed with less dense elements such as sulphur,...
We apply a full-potential first-principles method to investigate the electronic-structure and elasti...
AbstractWe report ab initio density functional theory calculations on iron–nickel (FeNi) alloys at ...
We apply a full-potential first-principles method to investigate the electronic-structure and elasti...
In this paper, the basic electronic structures and elastic properties of Ni3Al doping with alloying ...
International audienceThe density of liquid iron-nickel-sulfur (Fe 46.5 Ni 28.5 S 25) alloy was dete...
International audienceThe density of liquid iron-nickel-sulfur (Fe 46.5 Ni 28.5 S 25) alloy was dete...
Stresses and impurities may influence elastic properties, phase stability and magnetic behavior of m...
In this thesis, material properties have been examined under extreme conditions in computer-based ca...
In this thesis, material properties have been examined under extreme conditions in computer-based ca...
International audienceIron-nickel alloys are considered the main components of Earth and Super-Earth...
At the time of the 50th anniversary of the Kohn-Sham method, ab initio calculations based on density...
Using density functional theory formulated within the framework of the exact muffin-tin orbitals met...
The Earth’s core is primarily composed of iron, alloyed with 5-20% nickel. Interpretation of the hi...
The Earth’s core is primarily composed of iron, alloyed with 5-20% nickel. Interpretation of the hi...
The Earth’s core is largely composed of iron (Fe), alloyed with less dense elements such as sulphur,...
We apply a full-potential first-principles method to investigate the electronic-structure and elasti...
AbstractWe report ab initio density functional theory calculations on iron–nickel (FeNi) alloys at ...
We apply a full-potential first-principles method to investigate the electronic-structure and elasti...
In this paper, the basic electronic structures and elastic properties of Ni3Al doping with alloying ...
International audienceThe density of liquid iron-nickel-sulfur (Fe 46.5 Ni 28.5 S 25) alloy was dete...
International audienceThe density of liquid iron-nickel-sulfur (Fe 46.5 Ni 28.5 S 25) alloy was dete...