The demand for biodegradable polymers produced from renewable natural resou
rces continues to grow as environmental concerns increase. The objective of
this study is to examine how acetylated soy protein isolate performed as a
thermoplastic and how the properties of films made from it are affected by
composition and morphology. SUPRO (R) 620 and 660 were modified and acetyl
ated to produce SY7 and SY23 thermoplastic films. These films were formed u
nder various compression-molding conditions to form films of two thicknesse
s and relative molecular weights. No plasticizer was used in forming these
films. Molded films were then evaluated for total and volatile solids, nitr
ogen content, chemical oxygen demand, flow rate, solubility, X-ray diffract
ion, H-1 and C-13 NMR, differential scanning calorimetry, infrared analysis
, tensile properties, oxygen and water vapor permeability. A comparison of
melt flow index values, nitrogen content, total solids, volatile solids, an
d chemical oxygen demand demonstrated no statistical differences between fi
lms, but significant differences from SUPRO (R) 620 the base material used
to form SY7. The SY7 films had lower solubility, lower 'wet' tensile streng
th, and higher oxygen permeability than the SY23 films. Both the SY7 and SY
23 films formed at higher compression molding temperatures had higher tensi
le strengths, increased 'wet' elongation, and lower water vapor permeabilit
y than the films formed at lower compression molding temperatures. X-Ray di
ffraction,H-1 and C-13 NMR, differential scanning calorimetry, and infrared
analysis exhibited slight or no differences between the SY7 and SY23 films
. Compression molded thermoplastics produced from acetylated SUPRO (R) 620
and 660 appear similar and a possible commercial thermoplastic. (C) 2001 El
sevier Science B.V. All rights reserved.