화학공학소재연구정보센터
Industrial & Engineering Chemistry Research, Vol.56, No.48, 14263-14269, 2017
Polymorphism and Enzymatic Degradation of Poly(1,4-butylene adipate) and Its Binary Blends with Atactic Poly(3-hydroxybutyrate) and Poly(vinyl phenol)
The influence of atactic poly(3-hydroxybutyrate) (aPHB) and poly(vinyl phenol) (PVPh) on the crystallization, phase transition, and enzymatic degradation behaviors of poly(1,4-butylene adipate) (PBA) was studied. It was found that both aPHB and PVPh can lower the critical temperature of neat alpha-PBA crystallization from 34 degrees C for neat PBA to 32 degrees C for the blends. Also the critical temperatures of neat beta-PBA crystallization decrease from 28 degrees C for neat PBA to 26 and 24 degrees C for the PBA/aPHB and PBA/PVPh, respectively. Moreover, the beta-to-alpha phase transition can be accelerated by incorporation of PVPh and aPHB. The beta-to-alpha phase transition completes at 55 degrees C during heating process for neat PBA, while the temperatures for a complete beta-to-alpha transition of PBA in PBA/aPHB and PBA/PVPh are 50 and 45 degrees C, respectively. This result should be attributed to the decreasing melting point of PBA in its blends with aPHB or PVPh. Therefore, the melting of the original beta-PBA and accompanied recrystallization into a ones should take place earlier and more quickly in the blends than that in neat PBA. The analysis of enzymatic degradation demonstrates that the degradation of PBA can be affected by crystalline morphology and the molecular chain mobility of PBA in the amorphous region. The restricted mobility of amorphous PBA imposed by aPHB and PVPh can slow down the degradation rate of PBA in the blends. The higher T-g and stronger intermolecular interaction between PVPh and PBA result in the slowest degradation of PBA in the PBA/PVPh blend. Furthermore, in neat PBA, PBA/PVPh, or PBA/aPHB, the degradation rate of alpha-PBA crystals obtained via annealing is slower than that of a-PBA prepared by isothermal crystallization and even slower than that of beta-PBA.