Synthesis and characterization of novel poly(propylene terephthalate-co-adipate) biodegradable random copolyesters

Novel aromatic/aliphatic poly(propylene terephthalate-co-adipate) (PPTAd) random copolymers were synthesized. Copolymer composition varied over the whole range from that of neat poly(propylene terephthalate) (PPT) to that of neat poly(propylene adipate) (PPAd). Interestingly, the copolymers showed that they can degrade via hydrolysis, especially in presence of enzymes, even for a terephthalate content as high as 66 mol%. Thermal behaviour and solid state as well as mechanical properties were studied. In contrast to hydrolysis rates, mechanical properties increase with terephthalate content. WAXD patterns indicate some extent of co-crystallization of both comonomers, especially for intermediate compositions. The thermodynamic analysis of the melting point depression showed that some portion of the adipate comonomer units participate in the formation of crystals, although the major portion of them is rejected from crystals and remain in the amorphous phase. WAXD patterns showed that even for a 60 mol% or more adipate content, the copolymers form PPT like crystals. Thus, the amorphous phase is enriched in adipate units, as is also shown by a lowering of the glass transition temperature of the crystallized copolymer samples, compared to glassy ones. Finally, multiple melting behaviour of the melt crystallized copolymer samples, as well as, banded spherulitic morphology was observed.