High-temperature elasticity of magnesioferrite spinel

Sytle M. Antao; Ian Jackson; Baosheng Li; Jennifer Kung; Jiuhua Chen; Ishmael Hassan; Robert C. Liebermann; John B. Parise

doi:10.1007/s00269-007-0152-z

High-temperature elasticity of magnesioferrite spinel

Sytle M. Antao
, Ian Jackson
, Baosheng Li
, Jennifer Kung
, Jiuhua Chen
, Ishmael Hassan
, Robert C. Liebermann
, John B. Parise

Geosciences

Stony Brook University

United States Department of Energy
Australian National University
National Cheng Kung University
Stony Brook University
The University of the West Indies

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

The elastic moduli of magnesioferrite spinel, MgFe₂ O₄, and their temperature dependence have been determined for the first time by ultrasonic measurements on a polycrystalline specimen. The measurements were carried out at 300 MPa and to 700̊C in a gas-medium high-pressure apparatus. On heating, both the elastic bulk (K_S) and shear (G) moduli decrease linearly to 350̊C. By combining with extant thermal-expansion data, the values for the room-temperature K_S and G, and their temperature derivatives are as follows: K₀ = 176.3(7) GPa, G₀ = 80.1(2) GPa, (∂K_S∂T)_P = -0.032(3) GPa K^-1 and (∂G/∂T _P = -0.012(1) GPa K^-1. Between 350 and 400̊C, there are abrupt increases of 1.4% in both of the elastic moduli; these closely coincide with the magnetic Curie transition that was observed by thermal analyses at about 360̊C.

Original language	English
Pages (from-to)	345-350
Number of pages	6
Journal	Physics and Chemistry of Minerals
Volume	34
Issue number	5
DOIs	https://doi.org/10.1007/s00269-007-0152-z
State	Published - Jul 2007

Keywords

Elasticity
High-temperature studies
Magnesioferrite
Ultrasonic

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10.1007/s00269-007-0152-z

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title = "High-temperature elasticity of magnesioferrite spinel",

abstract = "The elastic moduli of magnesioferrite spinel, MgFe2 O4, and their temperature dependence have been determined for the first time by ultrasonic measurements on a polycrystalline specimen. The measurements were carried out at 300 MPa and to 700̊C in a gas-medium high-pressure apparatus. On heating, both the elastic bulk (KS) and shear (G) moduli decrease linearly to 350̊C. By combining with extant thermal-expansion data, the values for the room-temperature KS and G, and their temperature derivatives are as follows: K0 = 176.3(7) GPa, G0 = 80.1(2) GPa, (∂KS∂T)P = -0.032(3) GPa K-1 and (∂G/∂T P = -0.012(1) GPa K-1. Between 350 and 400̊C, there are abrupt increases of 1.4\% in both of the elastic moduli; these closely coincide with the magnetic Curie transition that was observed by thermal analyses at about 360̊C.",

keywords = "Elasticity, High-temperature studies, Magnesioferrite, Ultrasonic",

author = "Antao, \{Sytle M.\} and Ian Jackson and Baosheng Li and Jennifer Kung and Jiuhua Chen and Ishmael Hassan and Liebermann, \{Robert C.\} and Parise, \{John B.\}",

year = "2007",

month = jul,

doi = "10.1007/s00269-007-0152-z",

language = "English",

volume = "34",

pages = "345--350",

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T1 - High-temperature elasticity of magnesioferrite spinel

AU - Antao, Sytle M.

AU - Jackson, Ian

AU - Li, Baosheng

AU - Kung, Jennifer

AU - Chen, Jiuhua

AU - Hassan, Ishmael

AU - Liebermann, Robert C.

AU - Parise, John B.

PY - 2007/7

Y1 - 2007/7

N2 - The elastic moduli of magnesioferrite spinel, MgFe2 O4, and their temperature dependence have been determined for the first time by ultrasonic measurements on a polycrystalline specimen. The measurements were carried out at 300 MPa and to 700̊C in a gas-medium high-pressure apparatus. On heating, both the elastic bulk (KS) and shear (G) moduli decrease linearly to 350̊C. By combining with extant thermal-expansion data, the values for the room-temperature KS and G, and their temperature derivatives are as follows: K0 = 176.3(7) GPa, G0 = 80.1(2) GPa, (∂KS∂T)P = -0.032(3) GPa K-1 and (∂G/∂T P = -0.012(1) GPa K-1. Between 350 and 400̊C, there are abrupt increases of 1.4% in both of the elastic moduli; these closely coincide with the magnetic Curie transition that was observed by thermal analyses at about 360̊C.

AB - The elastic moduli of magnesioferrite spinel, MgFe2 O4, and their temperature dependence have been determined for the first time by ultrasonic measurements on a polycrystalline specimen. The measurements were carried out at 300 MPa and to 700̊C in a gas-medium high-pressure apparatus. On heating, both the elastic bulk (KS) and shear (G) moduli decrease linearly to 350̊C. By combining with extant thermal-expansion data, the values for the room-temperature KS and G, and their temperature derivatives are as follows: K0 = 176.3(7) GPa, G0 = 80.1(2) GPa, (∂KS∂T)P = -0.032(3) GPa K-1 and (∂G/∂T P = -0.012(1) GPa K-1. Between 350 and 400̊C, there are abrupt increases of 1.4% in both of the elastic moduli; these closely coincide with the magnetic Curie transition that was observed by thermal analyses at about 360̊C.

KW - Elasticity

KW - High-temperature studies

KW - Magnesioferrite

KW - Ultrasonic

UR - https://www.scopus.com/pages/publications/34347394405

U2 - 10.1007/s00269-007-0152-z

DO - 10.1007/s00269-007-0152-z

M3 - Article

SN - 0342-1791

VL - 34

SP - 345

EP - 350

JO - Physics and Chemistry of Minerals

JF - Physics and Chemistry of Minerals

IS - 5

ER -

High-temperature elasticity of magnesioferrite spinel

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Keywords

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