Add to ORKGThe generalized van der Waals equation is used to obtain formulas for calculating spinodals in the p, V, T coordinates. The parameters of the characteristic spinodal points are calculated for N2, Ar, O2, CO2, H3N, H2O, Hg, and Cs. These parameters include the temperature and the density of a liquid at the point of its maximum overheating under zero pressure; the density at absolute zero; the slope of the spinodal in the p, T coordinates under zero pressure and at the critical point; and the theoretical tensile strength of the phase at absolute zero. The graphs of water, mercury, and cesium spinodals are given
We develop a series of molecular dynamics computer simulations of liquid water, performed with a pol...
Generalized van der Waals equations of state can exhibit density anomalies, as characterized by a ne...
The spinodal represents the limit of thermodynamic stability of a homogeneous fluid. In this work, w...
The generalized van der Waals equation is used to obtain formulas for calculating spinodals in the p...
The generalized van der Waals equation is used to obtain equations describing the quasi-spinodal and...
A three-parametric modification of Berthelot's equation of state with an extra parameter n in the ex...
The method for calculating the spinodal of the liquid phase at negative pressures by the generalized...
The method for calculating the spinodal of the liquid phase at negative pressures by the generalized...
The contribution deals with a group of 13 equations of state (EOS), predominantly of the van der Waa...
A method for determining generalized van der Waals equation parameters from experimental data on liq...
A method for determining generalized van der Waals equation parameters from experimental data on liq...
The three-parameter generalized van der Waals equation of state for liquids and gases is analyzed. T...
The three-parameter generalized van der Waals equation of state for liquids and gases is analyzed. T...
The contribution deals with a group of 13 equations of state (EOS), predominantly of the van der Waa...
We develop a series of molecular dynamics computer simulations of liquid water, performed with a pol...
We develop a series of molecular dynamics computer simulations of liquid water, performed with a pol...
Generalized van der Waals equations of state can exhibit density anomalies, as characterized by a ne...
The spinodal represents the limit of thermodynamic stability of a homogeneous fluid. In this work, w...
The generalized van der Waals equation is used to obtain formulas for calculating spinodals in the p...
The generalized van der Waals equation is used to obtain equations describing the quasi-spinodal and...
A three-parametric modification of Berthelot's equation of state with an extra parameter n in the ex...
The method for calculating the spinodal of the liquid phase at negative pressures by the generalized...
The method for calculating the spinodal of the liquid phase at negative pressures by the generalized...
The contribution deals with a group of 13 equations of state (EOS), predominantly of the van der Waa...
A method for determining generalized van der Waals equation parameters from experimental data on liq...
A method for determining generalized van der Waals equation parameters from experimental data on liq...
The three-parameter generalized van der Waals equation of state for liquids and gases is analyzed. T...
The three-parameter generalized van der Waals equation of state for liquids and gases is analyzed. T...
The contribution deals with a group of 13 equations of state (EOS), predominantly of the van der Waa...
We develop a series of molecular dynamics computer simulations of liquid water, performed with a pol...
We develop a series of molecular dynamics computer simulations of liquid water, performed with a pol...
Generalized van der Waals equations of state can exhibit density anomalies, as characterized by a ne...
The spinodal represents the limit of thermodynamic stability of a homogeneous fluid. In this work, w...