HIGH-MOLECULAR-WEIGHT POLY(L-LACTIDE) AND POLY(ETHYLENE OXIDE) BLENDS- THERMAL CHARACTERIZATION AND PHYSICAL-PROPERTIES

The miscibility of high molecular weight poly(L-lactide) (PLLA) with h igh molecular weight poly(ethylene oxide) (PEG) was studied by differe ntial scanning calorimetry. Ail blends containing up to 50 weight% PEO showed single glass transition temperatures. The PLLA and PEO melting temperatures were found to decrease on blending, the equilibrium melt ing points of PLLA in these blends decreased with increasing PEO fract ions. These results suggest the miscibility of PLLA and PEO in the amo rphous phase. Mechanical properties of blends with up to 20 weight% PE O were also studied. Changes in mechanical properties were small in bl ends with less than 10 weight% PEO. At higher PEO concentrations the m aterials became very flexible, an elongation at break of more than 500 % was observed for a blend with 20 weight% PEG. Hydrolytic degradation up to 30 days of the blends showed only a small variation in tensile strength at PEO concentrations less than 15 weight%. As a result of th e increased hydrophilicity, however, the blends swelled. Mass loss upo n degradation was attributed to partial dissolution of the PEO fractio n and to an increased rate of degradation of the PLLA fraction. Signif icant differences in degradation behaviour between PLLA/PEO blends and PLLA/PEO/PLLA triblock-copolymers were observed. Copyright (C) 1996 E lsevier Science Ltd.