Influence of chain structure on crystal polymorphism of poly(lactic acid). Part 1. Effect of optical purity of the monomer

The influence of chain structure on crystal polymorphism of poly(lactic acid) (PLA) with high L-lactic acid content (97.8-100 %) is detailed in this contribution. Upon usual processing conditions of PLA, only a and a' crystals grow, which makes these two polymorphs ofmajor interest for research. The two crystal modifications have similar chain packing, which complicates their quantitative analysis by diffraction methods. The two crystal modifications are instead easily identified by analysis of the crystallization kinetics, which varies not only with temperature, but also with crystal polymorphism. The dependence of the rate of ordering on temperature shows two distinct maxima around 105-110 and 120-125 °C, which are related to growth of a' and a crystals, respectively. Addition of D-lactic acid co-units leads to a decrease of the overall crystallization rate of PLA, as well as of the rate of spherulite growth (G) of both the crystal modifications. The relative crystallization rates of a and a' forms are highly affected by stereoregularity, especially in the PLA grades that have a high crystallization rate. A high D-lactic acid content results not only in an overall slower crystal growth, but also in a varied temperature range where each of the two crystal modifications prevail, with a shift to lower temperatures of both the maxima of the G vs. temperature plots, indicating that inclusion of D-lactic acid units in the PLA chain affects crystallization rate of both a and a' crystal modifications.