Elasticity of polycrystalline pyrope (Mg3Al2Si3O12) to 9 GPa and 1000 °C

Gabriel D. Gwanmesia; Jianzhong Zhang; Kenneth Darling; Jennifer Kung; Baosheng Li; Liping Wang; Daniel Neuville; Robert C. Liebermann

doi:10.1016/j.pepi.2005.10.008

Elasticity of polycrystalline pyrope (Mg₃Al₂Si₃O₁₂) to 9 GPa and 1000 °C

Gabriel D. Gwanmesia, Jianzhong Zhang, Kenneth Darling, Jennifer Kung, Baosheng Li, Liping Wang, Daniel Neuville, Robert C. Liebermann

地球科學系

研究成果: Article › 同行評審

73 引文斯高帕斯（Scopus）

摘要

Acoustic wave velocities for synthetic polycrystalline pyrope (Mg₃Al₂Si₃O₁₂) were measured to 9 GPa and temperatures up to 1000 °C by ultrasonic interferometry combined with energy-dispersive synchrotron X-ray diffraction in a cubic-anvil DIA-type apparatus (SAM-85). Specimen lengths at high pressures (P) and temperatures (T) are directly measured by X-radiographic methods. Elastic wave travel times and X-ray diffraction data were collected after heating and cooling at high pressures to minimize effect of non-hydrostatic stress on the measurements. A linear fit to the high P and T data set yields the elastic bulk and shear moduli [K_S = 175 (2) GPa; G = 91 (1) GPa] and their pressure and temperature derivatives [ K^′_S = 3.9 ± 0.3; G′ = 1.7 ± 0.2 and (∂K_S/∂T)_P = -18 (2) MPa/K; (∂G/∂T)_P = -10 (1) MPa/K]. In a separate analysis, the pressure-volume-temperature data collected during these acoustic experiments were fit to a high temperature Birch-Murnaghan (HTBM) equation [with K′ fixed at 3.9] and to each isothermal P-V-T data yielding (∂K_T/∂T)_P = -22 (2) MPa/K and (∂K_T/∂T)_P = -20 (5) MPa/K, respectively. Comparison of Py₁₀₀ data with those other Py-Mj compositions indicates that the thermo elastic properties are insensitive to majorite content in the garnet along the pyrope-majorite join.

原文	English
頁（從 - 到）	179-190
頁數	12
期刊	Physics of the Earth and Planetary Interiors
卷	155
發行號	3-4
DOIs	https://doi.org/10.1016/j.pepi.2005.10.008
出版狀態	Published - 2006 5月 16

All Science Journal Classification (ASJC) codes

天文和天體物理學
地球物理
物理與天文學（雜項）
空間與行星科學

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10.1016/j.pepi.2005.10.008

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title = "Elasticity of polycrystalline pyrope (Mg3Al2Si3O12) to 9 GPa and 1000 °C",

abstract = "Acoustic wave velocities for synthetic polycrystalline pyrope (Mg3Al2Si3O12) were measured to 9 GPa and temperatures up to 1000 °C by ultrasonic interferometry combined with energy-dispersive synchrotron X-ray diffraction in a cubic-anvil DIA-type apparatus (SAM-85). Specimen lengths at high pressures (P) and temperatures (T) are directly measured by X-radiographic methods. Elastic wave travel times and X-ray diffraction data were collected after heating and cooling at high pressures to minimize effect of non-hydrostatic stress on the measurements. A linear fit to the high P and T data set yields the elastic bulk and shear moduli [KS = 175 (2) GPa; G = 91 (1) GPa] and their pressure and temperature derivatives [ K′S = 3.9 ± 0.3; G′ = 1.7 ± 0.2 and (∂KS/∂T)P = -18 (2) MPa/K; (∂G/∂T)P = -10 (1) MPa/K]. In a separate analysis, the pressure-volume-temperature data collected during these acoustic experiments were fit to a high temperature Birch-Murnaghan (HTBM) equation [with K′ fixed at 3.9] and to each isothermal P-V-T data yielding (∂KT/∂T)P = -22 (2) MPa/K and (∂KT/∂T)P = -20 (5) MPa/K, respectively. Comparison of Py100 data with those other Py-Mj compositions indicates that the thermo elastic properties are insensitive to majorite content in the garnet along the pyrope-majorite join.",

author = "Gwanmesia, {Gabriel D.} and Jianzhong Zhang and Kenneth Darling and Jennifer Kung and Baosheng Li and Liping Wang and Daniel Neuville and Liebermann, {Robert C.}",

note = "Funding Information: This research was supported by National Science Foundation under grants EAR-0106528 to GDG and EAR-0135431 to GDG under the Elasticity Grand Challenge project. The authors thank M.T. Vaughan, J. Chen, L. Wang and D.J. Weidner for their technical support in these experiments. We also thank Paul Raterron for the TEM analysis of the polycrystalline specimens used in this study. We thank S. Jacobsen for a thorough and constructive review of the original version of this paper. The in-situ ultrasonic experiments were carried out at the X-17B1 beam line of the National Synchrotron Light Source (NSLS), which is supported by the US Department of Energy, Division of Materials Sciences and Division of Chemical Sciences under No. DE-AC02-98CH 10886, and by COMPRES, the Consortium for Materials Properties Research in Earth Sciences under NSF Cooperative Agreement EAR 01-35554. MPI Publication No. 350.",

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T1 - Elasticity of polycrystalline pyrope (Mg3Al2Si3O12) to 9 GPa and 1000 °C

AU - Gwanmesia, Gabriel D.

AU - Zhang, Jianzhong

AU - Darling, Kenneth

AU - Kung, Jennifer

AU - Li, Baosheng

AU - Wang, Liping

AU - Neuville, Daniel

AU - Liebermann, Robert C.

N1 - Funding Information: This research was supported by National Science Foundation under grants EAR-0106528 to GDG and EAR-0135431 to GDG under the Elasticity Grand Challenge project. The authors thank M.T. Vaughan, J. Chen, L. Wang and D.J. Weidner for their technical support in these experiments. We also thank Paul Raterron for the TEM analysis of the polycrystalline specimens used in this study. We thank S. Jacobsen for a thorough and constructive review of the original version of this paper. The in-situ ultrasonic experiments were carried out at the X-17B1 beam line of the National Synchrotron Light Source (NSLS), which is supported by the US Department of Energy, Division of Materials Sciences and Division of Chemical Sciences under No. DE-AC02-98CH 10886, and by COMPRES, the Consortium for Materials Properties Research in Earth Sciences under NSF Cooperative Agreement EAR 01-35554. MPI Publication No. 350.

PY - 2006/5/16

Y1 - 2006/5/16

N2 - Acoustic wave velocities for synthetic polycrystalline pyrope (Mg3Al2Si3O12) were measured to 9 GPa and temperatures up to 1000 °C by ultrasonic interferometry combined with energy-dispersive synchrotron X-ray diffraction in a cubic-anvil DIA-type apparatus (SAM-85). Specimen lengths at high pressures (P) and temperatures (T) are directly measured by X-radiographic methods. Elastic wave travel times and X-ray diffraction data were collected after heating and cooling at high pressures to minimize effect of non-hydrostatic stress on the measurements. A linear fit to the high P and T data set yields the elastic bulk and shear moduli [KS = 175 (2) GPa; G = 91 (1) GPa] and their pressure and temperature derivatives [ K′S = 3.9 ± 0.3; G′ = 1.7 ± 0.2 and (∂KS/∂T)P = -18 (2) MPa/K; (∂G/∂T)P = -10 (1) MPa/K]. In a separate analysis, the pressure-volume-temperature data collected during these acoustic experiments were fit to a high temperature Birch-Murnaghan (HTBM) equation [with K′ fixed at 3.9] and to each isothermal P-V-T data yielding (∂KT/∂T)P = -22 (2) MPa/K and (∂KT/∂T)P = -20 (5) MPa/K, respectively. Comparison of Py100 data with those other Py-Mj compositions indicates that the thermo elastic properties are insensitive to majorite content in the garnet along the pyrope-majorite join.

AB - Acoustic wave velocities for synthetic polycrystalline pyrope (Mg3Al2Si3O12) were measured to 9 GPa and temperatures up to 1000 °C by ultrasonic interferometry combined with energy-dispersive synchrotron X-ray diffraction in a cubic-anvil DIA-type apparatus (SAM-85). Specimen lengths at high pressures (P) and temperatures (T) are directly measured by X-radiographic methods. Elastic wave travel times and X-ray diffraction data were collected after heating and cooling at high pressures to minimize effect of non-hydrostatic stress on the measurements. A linear fit to the high P and T data set yields the elastic bulk and shear moduli [KS = 175 (2) GPa; G = 91 (1) GPa] and their pressure and temperature derivatives [ K′S = 3.9 ± 0.3; G′ = 1.7 ± 0.2 and (∂KS/∂T)P = -18 (2) MPa/K; (∂G/∂T)P = -10 (1) MPa/K]. In a separate analysis, the pressure-volume-temperature data collected during these acoustic experiments were fit to a high temperature Birch-Murnaghan (HTBM) equation [with K′ fixed at 3.9] and to each isothermal P-V-T data yielding (∂KT/∂T)P = -22 (2) MPa/K and (∂KT/∂T)P = -20 (5) MPa/K, respectively. Comparison of Py100 data with those other Py-Mj compositions indicates that the thermo elastic properties are insensitive to majorite content in the garnet along the pyrope-majorite join.

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JO - Physics of the Earth and Planetary Interiors

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ER -

Elasticity of polycrystalline pyrope (Mg3Al2Si3O12) to 9 GPa and 1000 °C

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Elasticity of polycrystalline pyrope (Mg₃Al₂Si₃O₁₂) to 9 GPa and 1000 °C