Development of crosslinkable poly(lactic acid-co-glycidyl methacrylate) copolymers and their curing behaviors

Crosslinkable poly(lactic acid-co-glycidyl methacrylate), P(LLA-co-GMA), copolymer was systematically synthesized by ring-opening polymerization. Synthesis parameters, i.e., catalyst type, comonomer ratio and polymerization time and temperature were studied. The incorporated GMA content strongly affected the physical and thermal properties of the obtained copolymers, which varied from semi-crystalline to completely amorphous polymers. Melting and glass transition temperatures, and molecular weights of the copolymers decreased as the GMA content in the copolymer increased. Curing behavior of the copolymers was assessed by employing thermo- and photo-crosslinking processes, and the crosslink density was evaluated via their gel content and solvent swelling ratio. A photo-crosslinking process was proven as a practical method in the curing of the copolymers, as the reaction was almost complete within 2 min, as indicated by a gel content of 96%. In the thermo-crosslinking process, at least a 15-min curing time was required at 120 °C. The cured products of copolymers with 19.2 mol% GMA showed the highest compressive stress at 25.5 MPa. Random copolymer of poly(lactic acid-co-glycidyl methacrylate), P(LLA-co-GMA) was systematically synthesized by ring-opening polymerization. Synthesis parameters, that is, catalyst type, comonomer ratio and polymerization time and temperature were studied. The incorporated GMA content strongly affected physical and thermal properties of the obtained copolymers, which varied from semi-crystalline to completely amorphous polymer. Curing behaviors of the copolymers were assessed by employing thermo- and photo-crosslinking processes, where the crosslink density was evaluated via their gel content and solvent swelling ratio.