Investigation on the α/δ Crystal Transition of Poly(l-lactic Acid) with Different Molecular Weights

Poly(l-lactic acid) (PLLA) crystal possesses a complex polymorphism, and the formation mechanism of various crystal forms has been a hot research topic in the field of polymer condensate matter. In this research, five kinds of PLLA with different molecular weights were prepared by ring-opening polymerization with strict dehydration operations and multistep purification treatments. Then, thin film isothermal crystallization experiments were carried out to obtain crystallized samples. Previous research has proven that the PLLA alpha crystal form is usually formed at a temperature above 120 & DEG;C and the PLLA delta (or alpha') crystal form is usually formed at a temperature below 120 & DEG;C. However, in this research, the characterization results indicated that the PLLA crystal changed from delta form to alpha form with the decrease of molecular weight at a temperature of 80 & DEG;C. Considering the molecular weight effect, the paper argued that the transitions of the alpha/delta crystal form are not only associated with temperature, but also related to entanglement state before crystallization. The small-angle X-ray scattering of the PLLA crystal and rheology analysis of the PLLA melt before crystallization further proved the significant role of entanglement. Finally, we tentatively proposed the entanglement effect mechanism on the transitions of the alpha/delta crystal form.</p>