FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2034367405> ?p ?o ?g. }

• W2034367405 endingPage "516" @default.
• W2034367405 startingPage "501" @default.
• W2034367405 abstract "We have investigated the effect of Al3+ on the room-temperature compressibility of perovskite for stoichiometric compositions along the MgSiO3–AlO1.5 join with up to 25 mol% AlO1.5. Aluminous Mg-perovskite was synthesized from glass starting materials, and was observed to remain a stable phase in the range of ∼30–100 GPa at temperatures of ∼2000 to 2600 K. Lattice parameters for orthorhombic (Pbnm) perovskite were determined using in situ X-ray diffraction at SPring8, Japan. Addition of Al3+ into the perovskite structure increases orthorhombic distortion and unit cell volume at ambient conditions (V0). Compression causes anisotropic decreases in axial length, with the a axis more compressive than the b and c axes by about 25% and 3%, respectively. The magnitude of orthorhombic distortion increases with pressure, but aluminous perovskite remains stable to pressures of at least 100 GPa. Our results show that substitution of Al3+ causes a mild increase in compressibility, with the bulk modulus (K0) decreasing at a rate of −67±35 GPa/XAl. This decrease in K0 is consistent with recent theoretical calculations if essentially all Al3+ substitutes equally into the six- and eight-fold sites by charge-coupled substitution with Mg2+ and Si4+. In contrast, the large increase in compressibility reported in some studies with addition of even minor amounts of Al is consistent with substitution of Al3+ into six-fold sites via an oxygen-vacancy forming substitution reaction. Schematic phase relations within the ternary MgSiO3–AlO1.5–SiO2 indicate that a stability field of ternary defect Mg-perovskite should be stable at uppermost lower mantle conditions. Extension of phase relations into the quaternary MgSiO3–AlO1.5–FeO1.5–SiO2 based on recent experimental results indicates the existence of a complex polyhedral volume of Mg-perovskite solid solutions comprised of a mixture of charge-coupled and oxygen-vacancy Al3+ and Fe3+ substitutions. Primitive mantle with about 5 mol% AlO1.5 and an Fe3+/(Fe3++Fe2+) ratio of ∼0.5 is expected to be comprised of ferropericlase coexisiting with Mg-perovskite that has a considerable component of Al3+ and Fe3+ defect substitutions at conditions of the uppermost lower mantle. Increased pressure may favor charge-coupled substitution reactions over vacancy forming reactions, such that a region could exist in the lower mantle with a gradient in substitution mechanisms. In this case, we expect the physical and transport properties of Mg-perovskite to change with depth, with a softer, probably more hydrated, defect dominated Mg-perovskite at the top of the lower mantle, grading into a stiffer, dehydrated, charge-coupled substitution dominated Mg-perovskite at greater depth." @default.
• W2034367405 created "2016-06-24" @default.
• W2034367405 creator A5002109254 @default.
• W2034367405 creator A5013873135 @default.
• W2034367405 creator A5016161471 @default.
• W2034367405 creator A5016568508 @default.
• W2034367405 creator A5067258783 @default.
• W2034367405 creator A5081489117 @default.
• W2034367405 date "2004-05-01" @default.
• W2034367405 modified "2023-10-14" @default.
• W2034367405 title "Phase relations and equation-of-state of aluminous Mg-silicate perovskite and implications for Earth's lower mantle" @default.
• W2034367405 cites W1537004772 @default.
• W2034367405 cites W1567206520 @default.
• W2034367405 cites W1569788917 @default.
• W2034367405 cites W1593226586 @default.
• W2034367405 cites W1625368129 @default.
• W2034367405 cites W1964523688 @default.
• W2034367405 cites W1965289284 @default.
• W2034367405 cites W1966238461 @default.
• W2034367405 cites W1969859799 @default.
• W2034367405 cites W1970767963 @default.
• W2034367405 cites W1972276584 @default.
• W2034367405 cites W1973804869 @default.
• W2034367405 cites W1974393234 @default.
• W2034367405 cites W1975753695 @default.
• W2034367405 cites W1988313025 @default.
• W2034367405 cites W1991432317 @default.
• W2034367405 cites W1994467505 @default.
• W2034367405 cites W2006058470 @default.
• W2034367405 cites W2006445542 @default.
• W2034367405 cites W2009589779 @default.
• W2034367405 cites W2023837599 @default.
• W2034367405 cites W2030322489 @default.
• W2034367405 cites W2030763051 @default.
• W2034367405 cites W2046766008 @default.
• W2034367405 cites W2047571459 @default.
• W2034367405 cites W2050372813 @default.
• W2034367405 cites W2053675670 @default.
• W2034367405 cites W2057172391 @default.
• W2034367405 cites W2061082423 @default.
• W2034367405 cites W2062781191 @default.
• W2034367405 cites W2063123916 @default.
• W2034367405 cites W2065827249 @default.
• W2034367405 cites W2071160319 @default.
• W2034367405 cites W2084059774 @default.
• W2034367405 cites W2085611375 @default.
• W2034367405 cites W2091930269 @default.
• W2034367405 cites W2092962539 @default.
• W2034367405 cites W2111501483 @default.
• W2034367405 cites W2149502246 @default.
• W2034367405 cites W2160155767 @default.
• W2034367405 cites W2162172544 @default.
• W2034367405 cites W2167590372 @default.
• W2034367405 cites W2171104626 @default.
• W2034367405 cites W2171591347 @default.
• W2034367405 cites W2171605980 @default.
• W2034367405 cites W4298091267 @default.
• W2034367405 doi "https://doi.org/10.1016/j.epsl.2004.03.014" @default.
• W2034367405 hasPublicationYear "2004" @default.
• W2034367405 type Work @default.
• W2034367405 sameAs 2034367405 @default.
• W2034367405 citedByCount "72" @default.
• W2034367405 countsByYear W20343674052012 @default.
• W2034367405 countsByYear W20343674052013 @default.
• W2034367405 countsByYear W20343674052014 @default.
• W2034367405 countsByYear W20343674052015 @default.
• W2034367405 countsByYear W20343674052016 @default.
• W2034367405 countsByYear W20343674052017 @default.
• W2034367405 countsByYear W20343674052018 @default.
• W2034367405 countsByYear W20343674052019 @default.
• W2034367405 countsByYear W20343674052020 @default.
• W2034367405 countsByYear W20343674052021 @default.
• W2034367405 countsByYear W20343674052022 @default.
• W2034367405 countsByYear W20343674052023 @default.
• W2034367405 crossrefType "journal-article" @default.
• W2034367405 hasAuthorship W2034367405A5002109254 @default.
• W2034367405 hasAuthorship W2034367405A5013873135 @default.
• W2034367405 hasAuthorship W2034367405A5016161471 @default.
• W2034367405 hasAuthorship W2034367405A5016568508 @default.
• W2034367405 hasAuthorship W2034367405A5067258783 @default.
• W2034367405 hasAuthorship W2034367405A5081489117 @default.
• W2034367405 hasConcept C113196181 @default.
• W2034367405 hasConcept C115624301 @default.
• W2034367405 hasConcept C121332964 @default.
• W2034367405 hasConcept C127313418 @default.
• W2034367405 hasConcept C145148216 @default.
• W2034367405 hasConcept C155011858 @default.
• W2034367405 hasConcept C159985019 @default.
• W2034367405 hasConcept C160804572 @default.
• W2034367405 hasConcept C178790620 @default.
• W2034367405 hasConcept C185592680 @default.
• W2034367405 hasConcept C192562407 @default.
• W2034367405 hasConcept C199289684 @default.
• W2034367405 hasConcept C199360897 @default.
• W2034367405 hasConcept C37243968 @default.
• W2034367405 hasConcept C41008148 @default.
• W2034367405 hasConcept C43617362 @default.
• W2034367405 hasConcept C54998646 @default.

• next