Abstract
The chain dynamics affects the chain motions and the crystallization behaviors of polymers, and the crystallization ability of poly(lactic acid) (PLA) homopolymers can be substantially enhanced by incorporating stereocomplex-PLA (s-PLA). The effects of s-PLA molecular weight on the enhanced crystallization of the homopolymer were characterized and analyzed in this study. The crystallization behaviors, morphologies and structures of the homopolymer in PLA/s-PLA blends were investigated using DSC, POM, WAXD and FTIR during or after isothermal and non-isothermal crystallization. The blends compose homopolymer and the same content of the s-PLAs with three different molecular weights. The DSC results showed that the homopolymer in the blends containing the higher molecular weight of the s-PLA crystallizes at higher crystallization temperature than that containing the lower molecular weight of the s-PLA during the non-isothermal crystallization. The crystallization half-time of the homopolymer blending with the higher molecular weight s-PLA is shorter than that blending with the lower molecular weight of the s-PLA during the isothermal crystallization. POM images showed that the spherulite density of the homopolymer blending with the higher molecular weight of the s-PLA is significantly higher than that with the lower molecular weight of the s-PLA. The Mpemba effect was first experimentally observed in the melting crystallization of polymer blends containing PDLA and s-PLA. A possible explanation is proposed and discussed to elucidate the impact of s-PLA molecular weight on the crystallization behaviors of PLA homopolymer in the blends.
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