Theoretical Prediction of Thermal Pressure for Geophysical Minerals

Anjani K. Pandey; Harendra K. Rai

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Theoretical Prediction of Thermal Pressure for Geophysical Minerals

机译：地球物理矿物热压力的理论预测

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Thermo elastic properties of materials at high temperature are directly related to the thermal pressure and volume of expansion of the materials. In the present work we have made a comparative study of temperature dependence of thermal pressure for geophysical minerals viz. MgO, Al_2O_3, Grossular Garnet, Olivine and Pyrope rich Garnet by using Suzuki formulation and Maxwell's formulation. It is observed that ?P_(Th) calculated by using Suzuki formulation is in good agreement with the experimental values up to 800K, but after this limit there is a deviation from experimental values, whereas, in case of Maxwell's formulation the agreement is valid only upto T=300K. This departure in the agreement has been interpreted using Hardy's Theory.

机译：材料在高温下的热弹性特性直接与材料的热压和膨胀量有关。在目前的工作中，我们对地球物理矿物的热压温度依赖性进行了比较研究。通过使用Suzuki配方和Maxwell配方，制成MgO，Al_2O_3，粗石榴石，橄榄石和富含石榴石的石榴石。可以观察到，使用Suzuki公式计算出的ΔP_（Th）与高达800K的实验值具有很好的一致性，但是在此极限之后与实验值存在偏差，而在麦克斯韦公式的情况下，该协议仅有效最高T = 300K。协议中的这种偏离已使用哈迪理论进行了解释。

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《Current Physical Chemistry》 |2014年第2期|共7页
作者
Anjani K. Pandey; Harendra K. Rai;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
Anderson-gruneisen parameter; harmonic effect; equation of state (EOS); debye temperature; eulerian strain; finite strain theory; geophysical minerals; gruneisen relation; hardy's theory; isothermal bulk modulus; lattice potential energy; pressure derivative of isothermal bulk modulus; thermal pressure; thermo elastic properties; volume expansion.;

机译：Anderson-gruneisen参数;谐波效应;状态方程（EOS）;德拜温度;欧拉应变;有限应变理论;地球物理矿物;gruneisen关系;哈迪理论;等温体积模量;晶格势能;等温体积模量的压力导数;热压力;热弹性;体积膨胀;

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1. Theoretical Prediction of Thermal Pressure for Geophysical Minerals [J] . Anjani K. Pandey, Harendra K. Rai Current Physical Chemistry . 2014,第2期

机译：地球物理矿物热压力的理论预测
2. A simple relationship between isothermal bulk modulus and thermal pressure for geophysical minerals [J] . Singh BP Physics and chemistry of minerals . 2005,第7期

机译：地球物理矿物的等温体积模量与热压力之间的简单关系
3. Theoretical prediction of the structural, elastic, electronic, optical and thermal properties of the cubic perovskites CsXF_3 (X = Ca, Sr and Hg) under pressure effect [J] . B. Ghebouli, M.A Ghebouli, A. Bouhemadou Solid state sciences . 2012,第7期

机译：压力作用下立方钙钛矿CsXF_3（X = Ca，Sr和Hg）的结构，弹性，电子，光学和热学性质的理论预测
4. Theoretical Prediction of Debye Temperature Elastic Constants of Geophysical Mineral [C] . Chandra K. Singh, Anjani K. Pandey, Brijesh K. Pandey International Conference on Condensed Matter and Applied Physics . 2016

机译：地球物理矿物德义温度与弹性常数的理论预测
5. AB INITIO THEORETICAL PREDICTIONS OF HIGH-PRESSURE AND HIGH-TEMPERATURE PROPERTIES OF LOWER MANTLE MINERAL PHASES. [D] . WOLF, GEORGE HENRY. 1987

机译：下地幔矿相高压和高温性质的从头算理论预测。
6. Experimental and theoretical thermal equations of state of MgSiO3 post-perovskite at multi-megabar pressures [O] . Takeshi Sakai, Haruhiko Dekura, Naohisa Hirao -1

机译：钙镁矿后兆兆巴压力下MgSiO3状态的实验和理论热方程
7. Thermal expansion of mantle minerals at high pressures-A theoretical study [O] . Bruno Reynard, Geoffrey D. Price 1990

机译：高压下的披风矿物的热膨胀 - 理论研究
8. THEORETICAL PREDICTION OF PRESSURES IN HYPERSONIC FLOW WITH SPECIAL REFERENCE TO CONFIGURATIONS HAVING ATTACHED LEADING-EDGE SHOCK Part Ⅰ. Theoretical Investigation [R] . Richard A. Schewing, Harold R. Mead, John W. Brook 1962

机译：具有附着力边缘冲击构型的特殊参考的超音速流动压力的理论预测第一部分。理论研究

Theoretical Prediction of Thermal Pressure for Geophysical Minerals

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