Abstract
The pressure–volume–temperature–entropy equations of state, P–V–T–S Eos, of polyethylene (PE) for its isothermal, isobaric and isochoric ensembles were reported in our previous report (Part 1). In this report the correlation between the P–V–T–S Eos in the various ensembles was analyzed quantitatively where it was found that the three dimensional P–T–V plane for the PT–T–VT Eos in the isothermal ensemble was almost the same as that for the P–TP–VP Eos in the isobaric ensemble, while the 3D T–P–S plane for the T–PT–ST Eos in the isothermal ensemble was almost the same as that for the TP–P–SP Eos in the isobaric ensemble where the subscript of T and P mean isothermal and isobaric ensembles, respectively. The isothermal bulk modulus, and its first and second pressure derivatives
and
were calculated and it was found that the 3D T–PT–
plane in the isothermal ensemble was almost the same as that for the TP–P–
in the isobaric ensemble, and the 3D T–PT–
plane in the isothermal ensemble was different only slightly from the 3D TP–P–
plane in the isobaric ensemble, while a considerable difference was observed between the 3D T–P–
planes for the isothermal and isobaric ensembles.