The Promoting Effect of Reactive Comb Compatibilizer on the Formation of Co-Continuous Structure in PVDF/PLLA Blends
Yufei Dong, Fei Li, Jiayao Wang, Yongjin Li, Guipeng Yu, Jichun YouWhile many kinds of reactive compatibilizers (RCs) have been artificially created for reducing interfacial tension in immiscible polymer blends, the effect of RCs on co-continuity formation (preferred in application) remains controversial. In this work, we selected the previously reported poly(vinylene fluoride)/poly(L-lactic acid)/reactive comb compatibilizer (PVDF/PLLA/RCC) blend system as the model system, in which the reaction between epoxy groups in RCC and terminal carboxyl groups in PLLA upon blending can produce glycidyl methacrylate (GMA)-PLLA side chains located at the PVDF/PLLA interface. By manipulating PVDF/PLLA composition ratio and RCC content, a half-U-shaped co-continuous phase diagram with an upward opening was obtained, suggesting a promoting effect of RCC on PVDF/PLLA co-continuity. This can be attributed to both the high viscosity of PLLA/RCC and the inhibited PVDF phase coalescence. On the one hand, owing to the significantly increased viscosity of PLLA/RCC relative to neat PLLA, the decreased viscosity ratio of PVDF to PLLA(/RCC) can lower the co-continuous PVDF/PLLA composition ratio. On the other hand, the coalescence of PVDF phase in PVDF/PLLA/20%RCC can be effectively inhibited due to the addition of RCC, opposite to the inclined PLLA phase coalescence in the neat PVDF/PLLA blend with high PVDF fraction (e.g., 80%). Our results provide guidance for evaluating and selecting RCs for a specific immiscible polymer blend in practical application.