Diffusion and flow birefringence of alkylene-aromatic thermotropic polyesters

“…The A 2Mwl [7]] ratios observed in this work, however, are far beyond the upper limit value expected for high polymers. The existence of molecular weight distribution in the fractions and the overestimation of A2 22 seem to be the reason for high A 2Mwl [7]] value.…”

“…Substituting these values in eq 19, the theoretical upper bound value of A2M I [7]] ratio may be 110 in the limit of infinite molecular weight in very good solvents. The A 2Mwl [7]] ratios observed in this work, however, are far beyond the upper limit value expected for high polymers.…”

“…Substituting these values in eq 19, the theoretical upper bound value of A2M I [7]] ratio may be 110 in the limit of infinite molecular weight in very good solvents. The A 2Mwl [7]] ratios observed in this work, however, are far beyond the upper limit value expected for high polymers. The existence of molecular weight distribution in the fractions and the overestimation of A2 22 seem to be the reason for high A 2Mwl [7]] value.…”

“…where [7]] is the intrinsic viscosity and M is the molecular weight. The reasons for this are that PET is soluble only in a limitted number of rather peculiar and dangerous solvents, such as trifluoroacetic acid (TFA) and achlorophenol (o-CP), and that the establishments of most MHS equations are based on the number average molecular weight Mn using the unfractionated samples.…”

“…In spite of an important polymer that has been widely used for a variety of industrial purposes, poly(ethylene terephthalate) (PET) is not still completely disclosed about its molecular characteristics and solution properties. I-s For example, there is significant disagreement among the constants of K' and a of the Mark-HouwinkSakurada (MHS) relationship, eq 1, compiled for several PET-solvent systems in "Polymer Handbook"; 9where [7]] is the intrinsic viscosity and M is the molecular weight. The reasons for this are that PET is soluble only in a limitted number of rather peculiar and dangerous solvents, such as trifluoroacetic acid (TFA) and achlorophenol (o-CP), and that the establishments of most MHS equations are based on the number average molecular weight Mn using the unfractionated samples.…”

Ultracentrifugal Characterization of Poly(ethylene terephthalate) in Dilute Solutions

“…The A 2Mwl [7]] ratios observed in this work, however, are far beyond the upper limit value expected for high polymers. The existence of molecular weight distribution in the fractions and the overestimation of A2 22 seem to be the reason for high A 2Mwl [7]] value.…”

“…Substituting these values in eq 19, the theoretical upper bound value of A2M I [7]] ratio may be 110 in the limit of infinite molecular weight in very good solvents. The A 2Mwl [7]] ratios observed in this work, however, are far beyond the upper limit value expected for high polymers.…”

“…Substituting these values in eq 19, the theoretical upper bound value of A2M I [7]] ratio may be 110 in the limit of infinite molecular weight in very good solvents. The A 2Mwl [7]] ratios observed in this work, however, are far beyond the upper limit value expected for high polymers. The existence of molecular weight distribution in the fractions and the overestimation of A2 22 seem to be the reason for high A 2Mwl [7]] value.…”

“…where [7]] is the intrinsic viscosity and M is the molecular weight. The reasons for this are that PET is soluble only in a limitted number of rather peculiar and dangerous solvents, such as trifluoroacetic acid (TFA) and achlorophenol (o-CP), and that the establishments of most MHS equations are based on the number average molecular weight Mn using the unfractionated samples.…”

“…In spite of an important polymer that has been widely used for a variety of industrial purposes, poly(ethylene terephthalate) (PET) is not still completely disclosed about its molecular characteristics and solution properties. I-s For example, there is significant disagreement among the constants of K' and a of the Mark-HouwinkSakurada (MHS) relationship, eq 1, compiled for several PET-solvent systems in "Polymer Handbook"; 9where [7]] is the intrinsic viscosity and M is the molecular weight. The reasons for this are that PET is soluble only in a limitted number of rather peculiar and dangerous solvents, such as trifluoroacetic acid (TFA) and achlorophenol (o-CP), and that the establishments of most MHS equations are based on the number average molecular weight Mn using the unfractionated samples.…”

Ultracentrifugal Characterization of Poly(ethylene terephthalate) in Dilute Solutions

Fractionation of Polymers

Anisotropy of Segments and Monomer Units of Polymer Molecules