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Viscosities of hcp iron alloys under Earth’s inner core conditions

Yunfan Xu, Yu He, Shichuan Sun, Wei Zhang, Weiru Dai, Duck Young Kim, Heping Li

2024Geoscience Frontiers7 citationsDOIOpen Access PDF

Abstract

Viscosity is critical for controlling the dynamics and evolution of the Earth’s inner core (IC). The viscosities of hexagonal close-packed (hcp) and body-centred cubic (bcc) Fe were studied experimentally and theoretically under Earth's core conditions. However, Earth’s inner core is mainly composed of Fe-Ni alloys with some light element impurities (Si, S, C, H, O), and the influence of impurities (Ni, Si, S, C, H, and O) on viscosity is still unknown. In this study, the diffusion coefficients of Fe, Ni, Si, S, C, H, and O were calculated under IC conditions using ab initio molecular dynamics (AIMD) and deep learning molecular dynamics (DPMD) methods. Among them, C, H, and O are highly diffusive like liquids in the lattice, while Fe, Ni, Si, and S diffuse through Fe site vacancies. In binary alloys , the influence of these impurities (Ni: 12.5%, S: 3.6%, Si: 3.1%, C: 1.3%, O: 1.7%, H: 0.4% by weight) on viscosity is insignificant. Based on the dislocation creep mechanism, the predicted viscosities of the hcp Fe alloys are 1 × 10 14 –2 × 10 16 Pa·s, which is consistent with the values predicted by free inner core nutation and seismic wave attenuation observations.

Topics & Concepts

Inner coreEarth (classical element)Core (optical fiber)Outer coreGeologyAstrobiologyGeophysicsMaterials scienceThermodynamicsPhysicsComposite materialMathematical physicsHigh-pressure geophysics and materialsMaterial Properties and Failure MechanismsMicrostructure and Mechanical Properties of Steels
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