Add to ORKGExperiments were performed on iron-silicon alloys to determine their suitability as analog compositions for the Earth's core. Starting compositions with 9 wt.% silicon and 16 wt.% silicon were compressed in diamond anvil cells and laser-heated. The melting temperatures of the alloys were measured up to 52 GPa using a recently developed optical system. Both curves show a melting point depression from pure iron but intersect at ~50 GPa. The two starting compositions were also studied up to 90 GPa and over 3500 K in synchrotron x-ray diffraction experiments, and phase diagrams were constructed for both compositions that show significant deviation from the pure iron phase diagram. Based on this synchrotron data, a model was produced which pred...
The Earth’s liquid outer core (OC) is composed of Fe alloyed with up to 10% Ni and a small fraction ...
The melting points of fcc- and hcp-structured Fe_(0.9)Ni_(0.1) and Fe are measured up to 125 GPa usi...
High-pressure melting experiments in the Fe-S-C ternary and Fe-S-Si-C quaternary systems have been c...
Abstract 17 The outer core of the Earth contains several weight percent of one or more unknown light...
Earth's core is an iron-rich alloy containing several weight percent of light element(s), possibly i...
[1] Three iron-silicon alloys (Fe85Si15, Fe71Si29, and e-FeSi) have been studied in a diamond anvil ...
Phase relations in Fe–5 wt%Ni–4 wt%Si alloy was examined in an internally resistive heated diamond a...
Phase relations of an Fe0.85Si0.15 alloy were investigated up to 240 GPa and 3000 K using in situ X-...
The melting curve of FeSi has been determined to 150 GPa in the laser-heated diamond anvil cell (LH-...
International audienceHigh pressure melting behavior of three Fe-alloys containing 5 wt% Ni and (1) ...
The Earth's core is about ten per cent less dense than pure iron (Fe), suggesting that it contains l...
High-pressure high-temperature experiments have been carried out up to 25 GPa and 2200°C in a multia...
The high-pressure behavior of Fe alloys governs the interior structure and dynamics of super-Earths,...
The Earth’s liquid outer core (OC) is composed of Fe alloyed with up to 10% Ni and a small fraction ...
The melting points of fcc- and hcp-structured Fe_(0.9)Ni_(0.1) and Fe are measured up to 125 GPa usi...
High-pressure melting experiments in the Fe-S-C ternary and Fe-S-Si-C quaternary systems have been c...
Abstract 17 The outer core of the Earth contains several weight percent of one or more unknown light...
Earth's core is an iron-rich alloy containing several weight percent of light element(s), possibly i...
[1] Three iron-silicon alloys (Fe85Si15, Fe71Si29, and e-FeSi) have been studied in a diamond anvil ...
Phase relations in Fe–5 wt%Ni–4 wt%Si alloy was examined in an internally resistive heated diamond a...
Phase relations of an Fe0.85Si0.15 alloy were investigated up to 240 GPa and 3000 K using in situ X-...
The melting curve of FeSi has been determined to 150 GPa in the laser-heated diamond anvil cell (LH-...
International audienceHigh pressure melting behavior of three Fe-alloys containing 5 wt% Ni and (1) ...
The Earth's core is about ten per cent less dense than pure iron (Fe), suggesting that it contains l...
High-pressure high-temperature experiments have been carried out up to 25 GPa and 2200°C in a multia...
The high-pressure behavior of Fe alloys governs the interior structure and dynamics of super-Earths,...
The Earth’s liquid outer core (OC) is composed of Fe alloyed with up to 10% Ni and a small fraction ...
The melting points of fcc- and hcp-structured Fe_(0.9)Ni_(0.1) and Fe are measured up to 125 GPa usi...
High-pressure melting experiments in the Fe-S-C ternary and Fe-S-Si-C quaternary systems have been c...