La. Pessan et Wj. Koros, ISOMER EFFECTS ON TRANSPORT-PROPERTIES OF POLYESTERS BASED ON BISPHENOL-A, Journal of polymer science. Part B, Polymer physics, 31(9), 1993, pp. 1245-1252
Pure gas sorption and transport properties of polyesters based on bisp
henol-A and both pure isophthalic and pure terephthalic acid chloride
were obtained for He, N2, O2, CH4, and CO2 at 35-degrees-C. The polyme
rs were synthesized in our laboratory and amorphous films were prepare
d with a specialized solvent casting procedure. The polymer containing
m-phenylene groups shows higher permselectivity for most of the gas p
airs. The ideal selectivity Of 02/N2 was increased by 33% when p-pheny
lene units were replaced by m-phenylene ones. On the other hand, the p
olyester containing only p-phenylene groups, shows higher permeability
to all the gases studied. The polymer based on pure terephthalic acid
chloride has a 75% higher oxygen permeability and a 1.1-fold higher c
arbon dioxide permeability than the isophthalic acid derivative. The p
olyester containing meta-phenylene units has lower T(g), higher permse
lectivity, lower permeability, lower fractional free volume (FFV), and
lower d-spacing. The values of FFV and d-spacing were only slightly d
ifferent between the two isomers. Moreover, for the sub-T(g) gamma tra
nsition the maximum in tan delta occurred at essentially the same temp
erature (55-degrees-C). The polymer with a higher concentration of p -
phenylene units shows somewhat larger area under the gamma-peak, indic
ating slightly more sub-T(g), motion. The Distribution of FFV is consi
dered to be the determining factor for the differences in transport pr
operties observed. (C) 1993 John Wiley & Sons, Inc.