PBT/PEG/LA可降解纤维的结构与性能

A series of PBT/PEG/LA block copoly(ether-ester) with the constant mass ratio (r=1) of soft to hard segment of PBT/PEG (Mn=1000) and LA molar fraction to PET hard segment varying from 0~30% were synthesized and characterized by means of intrinsic viscosity[η]，FT-IR，1H-NMR，DSC，mechanical properties and degradation behavior. The analysis on the hard segments in the copolymer chain and the thermodynamic properties showed that the molar faction of PBT decreased from 83.70% to 58.58% and the melting points (Tm,h)of hard segments decreased from 193.6 ℃ to 170.1 ℃，with the increase of LA molar ratio from 0 to 30% to the molar faction of PBT in the initial PBT/PEG copolymer. The mechanical properties testing showed that the higher molar fraction of LA impacts degradation of fibers, while the lower one improves the tensile strength. The biodegradable properties of PBT/PEG/LA fibers are related to its chain structure，collective structure and the molar faction of LA. The regression equation based on the correlations between the remaining percent of tensile strength Y(%)of degradable fibers and time of degradation t(week) is Y=A+B1×t+B2×t2+B3×t3+B4×t4, and the coefficient of determination R2>0.997.