A deeper and hotter Martian core-mantle differentiation inferred from . . . In this study, we aim to constrain the Martian core-mantle differentiation by examining FeO partitioning between core and mantle materials, incorporating improved Martian compositional data from the InSight mission Using ab initio thermodynamic techniques, we calculated the FeO partition coefficient between liquid iron and silicate melt
Equation of state and phase diagram of FeO - ScienceDirect Wüstite, Fe 1 − x O, is an important component in the mineralogy of Earth's lower mantle and may also be a component in the core Therefore the high pressure, high temperature behavior of FeO, including its phase diagram and equation of state, is essential knowledge for understanding the properties and evolution of Earth's deep interior We performed X-ray diffraction measurements using a
Comparison of transient shrinkage behaviours between binary ternary . . . Our previous work initially investigated the shrinkage behaviors of binary- FeO rich oxides mixtures (FeO–CaO, FeO–SiO 2, FeO–MgO, FeO–Al 2 O 3) under simulated cohesive zone conditions in a CO [46, 47] This study further explores the differences in shrinkage behaviors between CO and H 2 by introducing binary ternary- FeO-rich oxides
Properties evaluation of electric smelting furnace slag: Viscosity and . . . This study investigated the viscosity and sulfide capacity of electric smelting furnace (ESF) slag (CaO-SiO2 -6wt %MgO-10 wt%Al 2 O 3-FeO) with a basicity of 0 8 through cylinder rotating method and gas-slag equilibrium experiments Additionally, the high-temperature structure of the slag was analyzed using FTIR and Raman spectroscopy The results showed that as the FeO content increased from
Facile synthesis and electrochemical properties of FeO Fe (OH) By using the surfactant-assisted method for synthesizing FeO Fe (OH) 3 nanosheets, we identified the synthesis conditions that simultaneously provide excellent electrochemical properties and surface stability to the nanosheets [35], [36], [37]
Phase Equilibrium studies in the system “FeO”–SiO Muan reported the information on the liquidus temperatures and mineralogical species in the system FeO-Fe2 O 3 -SiO 2 using the quenching technique and the chemical analysis [9, 10] The phase diagrams of FeO-Fe2 O 3 -SiO 2 at Po 2 from 10 -10 to 1 atm were constructed from the experimental data