Phase relations of Fe-Si alloy in Earth’s core

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dc.contributor.authorLin, Jung-Fu
dc.contributor.authorScott, Henry P.
dc.contributor.authorFischer, Rebecca A.
dc.contributor.authorChang, Yun-Yuan
dc.contributor.authorKantor, Innokenty
dc.contributor.authorPrakapenka, Vitali B.
dc.date.accessioned2021-04-23T19:49:12Z
dc.date.available2021-04-23T19:49:12Z
dc.date.issued2009
dc.description.abstractPhase relations of an Fe0.85Si0.15 alloy were investigated up to 240 GPa and 3000 K using in situ X-ray diffraction in a laser-heated diamond anvil cell. An alloy of this composition as starting material is found to result in a stabilized mixture of Si-rich bcc and Si-poor hcp Fe-Si phases up to at least 150 GPa and 3000 K, whereas only hcp-Fe0.85Si0.15 is found to be stable between approximately 170 GPa and 240 GPa at high temperatures. Our extended results indicate that Fe0.85Si0.15 alloy is likely to have the hcp structure in the inner core, instead of the previously proposed mixture of hcp and bcc phases. Due to the volumetric dominance of the hcp phase in the hcp + bcc coexistence region close to the outer-core conditions, the dense closest-packed Fe-Si liquid is more relevant to understanding the properties of the outer core.en
dc.format.extent5 pages
dc.format.mimetypePDF
dc.identifier.urihttps://hdl.handle.net/2022/26366
dc.language.isoenen
dc.publisherWileyen
dc.subject.lcshEarth (Planet) -- Core
dc.subject.lcshIron-silicon alloys
dc.titlePhase relations of Fe-Si alloy in Earth’s coreen
dc.typeArticleen

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