Add to ORKG- A group contribution equation of state recently proposed by the authors is used to calculate the activity of solvents in polymer+solvent solutions. The model is based on the generalized van der Waals theory and combines the Staverman-Guggenheim combinatorial term with an attractive lattice gas expression. The results show that the equation correlates the properties of pure solvents and polymers accurately. Furthermore, the equation satisfactorily represents the vapor-liquid equilibrium of solutions containing polymer and solvents of different polarities
An equation of state (EOS) using an improved expression of the coordination number model for square ...
A local composition model based on the lattice theory and two-fluid theory, considering the excess h...
This overview presents group-contribution models for predicting properties of pure polymers, polymer...
This study introduces a specified group-contribution method for predicting the phase equilibria in p...
The aim of this work is to apply a group-contribution cubic equation of state to vapor-liquid equili...
Group contribution based models are widely used in industrial applications for its convenience and f...
In this work the improved van der Waals equation of state which has been used for vapour-liquid equi...
In this work, mixing rule of Sanches-Lacombe equation of state (SL-EoS) was developed for estimating...
ABSTRACT: The lattice fluid theory of solutions is used to calculate heats and volumes of mixing, lo...
We present some calculated structural and thermodynamic properties of homogeneous-dendritic-polymer ...
Texto completo: acesso restrito. p. 599–607We present results of vapor–liquid equilibrium and critic...
A free-energy model is developed for polymer chains in good solvents.This model, which combines the ...
Equations of state (eos) have become the prevalent means for thermodynamic and phase equilibrium cal...
Properties of saturated fluid states are used as basis to find the chain-of-rotators equation of sta...
Perturbed hard-sphere-chain (PHSC) theory equation of state (EOS), which is based on the square-well...
An equation of state (EOS) using an improved expression of the coordination number model for square ...
A local composition model based on the lattice theory and two-fluid theory, considering the excess h...
This overview presents group-contribution models for predicting properties of pure polymers, polymer...
This study introduces a specified group-contribution method for predicting the phase equilibria in p...
The aim of this work is to apply a group-contribution cubic equation of state to vapor-liquid equili...
Group contribution based models are widely used in industrial applications for its convenience and f...
In this work the improved van der Waals equation of state which has been used for vapour-liquid equi...
In this work, mixing rule of Sanches-Lacombe equation of state (SL-EoS) was developed for estimating...
ABSTRACT: The lattice fluid theory of solutions is used to calculate heats and volumes of mixing, lo...
We present some calculated structural and thermodynamic properties of homogeneous-dendritic-polymer ...
Texto completo: acesso restrito. p. 599–607We present results of vapor–liquid equilibrium and critic...
A free-energy model is developed for polymer chains in good solvents.This model, which combines the ...
Equations of state (eos) have become the prevalent means for thermodynamic and phase equilibrium cal...
Properties of saturated fluid states are used as basis to find the chain-of-rotators equation of sta...
Perturbed hard-sphere-chain (PHSC) theory equation of state (EOS), which is based on the square-well...
An equation of state (EOS) using an improved expression of the coordination number model for square ...
A local composition model based on the lattice theory and two-fluid theory, considering the excess h...
This overview presents group-contribution models for predicting properties of pure polymers, polymer...