Jcjf. Tacx et al., Dissolution behavior and solution properties of polyvinylalcohol as determined by viscometry and light scattering in DMSO, ethyleneglycol and water, POLYMER, 41(3), 2000, pp. 947-957
As it is very difficult to obtain molecularly dispersed solutions of polyvi
nylalcohol (PVA) in water and as the properties of these solutions change o
n ageing due to the formation of aggregates, the dissolution behavior and s
olution properties of PVA with molar masses ranging from 15 to 690 kg/mol i
n two other solvents, dimethylsulfoxide (DMSO) and ethyleneglycol (EG) was
investigated by continuously monitoring eta(sp)/c as a function of dissolut
ion time using a simple Ubbelohde viscometer and light scattering. The opti
mum dissolution temperatures ranged from 60 to 120 degrees C. The solutions
remain stable for at least 24 h. Even yarns which are virtually insoluble
in water could successfully be dissolved in DMSO at 120 degrees C. The Hugg
ins constant for PVA both in water and ethyleneglycol is 0.5 and 0.3 in DMS
O. Filtration of the PVA solutions in DMSO caused no clogging of filters (0
.2 mu m). From light scattering it became apparent that PVA is molecularly
dispersed in DMSO and that the solutions show no aggregation and hence no a
geing. For PVA in DMSO the second virial coefficient appeared to be 4-15 x
10(-4) cm(3) g(-2) mel. This may be compared to <2 x 10(-4) cm(3) g(-2) mol
in water. The Mark-Houwink relations for PVA in DMSO at 65 degrees C ([eta
] = 1.51 x 10(-4) M-w(0.804)), ethyleneglycol at 140 degrees C ([eta] = 3.5
4 x 10(-4) M-w(0.692)) and water at 30 degrees C ([eta] = 6.51 x 10(-4) M-w
(0.628)), were established. These findings indicate that DMSO is a good sol
vent for PVA. (C) 1999 Elsevier Science Ltd. All rights reserved.