Rose-Vinet (Universal) equation of state: Difference between revisions

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==Vinet==
==Vinet==
 
In order to rectify the excessive stiffness of the [[Murnaghan equation of state]] as well as represent the exponential dependence of the repulsion as solid undergoes strong compression, Vinet proposed an equation of state, known  as either the '''Vinet equation of state''' or '''Universal equation of state'''<ref>[http://dx.doi.org/10.1103/PhysRevB.35.1945 Pascal Vinet, John R. Smith, John Ferrante and James H. Rose  "Temperature effects on the universal equation of state of solids", Physical Review B '''35''' pp. 1945-1953 (1987)]</ref>.  The equation of state was formulated so that one form could represent all solids over a reasonably wide range of [[pressure]]s, depending only on data for the calibration point.  Using the shorthand for the cube root specific volume:
In order to rectify the excessive stiffness of the [[Murnaghan equation of state]] as well as represent the exponential dependence of the repulsion as solid undergoes strong compression, Vinet proposed an equation of state (without mentioning that it had been used previously for instance by F. D. Stacey, B. J. Brennan and R. D. Irvine in "Finite strain theores and comparison with seismological data", Geophysical Surveys, 4, 189-232 (1989)) as either the '''Vinet equation of state''' or '''Universal equation of state'''<ref>[http://dx.doi.org/10.1103/PhysRevB.35.1945 Pascal Vinet, John R. Smith, John Ferrante and James H. Rose  "Temperature effects on the universal equation of state of solids", Physical Review B '''35''' pp. 1945-1953 (1987)]</ref>.  The equation of state was formulated so that one form could represent all solids in reasonably wide ranches of pressure, depending only on data for the calibration point.  Using the shorthand for the cube root specific volume:


:<math>\eta=\left(\frac{V}{V_0}\right)^{\frac{1}{3}}</math>
:<math>\eta=\left(\frac{V}{V_0}\right)^{\frac{1}{3}}</math>
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:<math>p=3B_0\left(\frac{1-\eta}{\eta^2}\right)e^{\frac{3}{2}(B_0'-1)(1-\eta)}</math>
:<math>p=3B_0\left(\frac{1-\eta}{\eta^2}\right)e^{\frac{3}{2}(B_0'-1)(1-\eta)}</math>
Note: there is a possibility that this equation of state was originally proposed in 1981 by Stacey et al. <ref>[http://dx.doi.org/10.1007/BF01449185 F. D. Stacey, B. J. Brennan and R. D. Irvine "Finite strain theories and comparisons with seismological data", Surveys in Geophysics '''4''' pp. 189-232 (1981)]</ref>.


==Rose-Vinet==
==Rose-Vinet==
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==References==
==References==
<references/>
<references/>
[[category: equations of state]]
[[category: equations of state]]

Latest revision as of 07:08, 19 February 2021

Vinet[edit]

In order to rectify the excessive stiffness of the Murnaghan equation of state as well as represent the exponential dependence of the repulsion as solid undergoes strong compression, Vinet proposed an equation of state, known as either the Vinet equation of state or Universal equation of state[1]. The equation of state was formulated so that one form could represent all solids over a reasonably wide range of pressures, depending only on data for the calibration point. Using the shorthand for the cube root specific volume:

the equation of state is (Eq. 4.1):

Note: there is a possibility that this equation of state was originally proposed in 1981 by Stacey et al. [2].

Rose-Vinet[edit]

References[edit]