Mechanical, microstructural and solubility properties of pectin/poly(vinyl alcohol) blends

Citrus pectin was blended and cast into films with poly(vinyl alcohol) (PVOH). PVOH and pectin were miscible in all proportions. Dynamic mechanical analysis revealed that pectin controls exhibited no thermal transitions, whereas PVOH controls exhibited a glass transition temperature (T-g) over a broad temperature range commencing at about 0 degrees C and ending about 50 degrees C. A mixture of 49% pectin, 21% PVOH and 30% glycerol exhibited lower storage moduli and mon flexibility than comparable mixtures of either pectin/PVOH or pectin/glycerol. Scanning electron microscopy and phase contrast optical microscopy indicated that the mixture was biphasic and a compatible composite either of PVOH in pectin or pectin in PVOH depending on which macromolecule was in excess. Elongation to break measurements revealed that pectin/PVOH films underwent a brittle to ductile transition with increasing PVOH composition. The addition of glycerol to pectin/PVOH films increased ductility significantly when films were relatively brittle. Initial moduli (IM) as a function of composition gave complex curves which exhibited either one or two local maxima depending on such factors as degree of hydrolysis and molar mass of the PVOH in addition to the moisture content of the film. Solubility studies in water revealed that, at 30 and 50 degrees C, only films with 30% PVOH or less were soluble. At 70 degrees C, all compositions were soluble but films containing pectin dissolved more rapidly than those without. The solution kinetics of pectin/PVOH films with 30% or less PVOH were approximated with zero-order kinetics and activation energies were about 3-5 kcal mol(-1). In general, addition of PVOH to pectin films resulted in films with more PVOH-like properties and addition of pectin to PVOH films resulted in films with mon pectin-like properties. (C) 1998 Elsevier Science Ltd. All rights reserved.