Kumari-Dass equation of state

Kumari and Dass^[1][2] presented a model based on a linear bulk modulus equation, in the spirit of the Murnaghan equation of state. The equation of state does not correctly model the bulk modulus as the pressure, ${\displaystyle p}$, tends towards infinity, as it remains bounded. This is apparent in the equation relating the bulk modulus to pressure:

${\displaystyle B=B_{0}+{\frac {B_{0}'}{\lambda }}\left(1-e^{-\lambda p}\right)}$

where ${\displaystyle B_{0}}$ is the isothermal bulk modulus, ${\displaystyle B_{0}'}$ is the pressure derivative of the bulk modulus and ${\displaystyle \lambda }$ is a softening parameter for the bulk modulus. This leads to a equation for pressure dependent on these parameters of the form:

${\displaystyle p={\frac {1}{\lambda }}\left[{\frac {\lambda B_{0}\left(V/V_{0}\right)^{-\lambda B_{0}+B_{0}'}+B_{0}'}{\lambda B_{0}+B_{0}'}}\right]}$

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