화학공학소재연구정보센터
Polymer Engineering and Science, Vol.60, No.8, 1940-1944, 2020
Super-crosslinked ionic liquid-intercalated montmorillonite/epoxy nanocomposites: Cure kinetics, viscoelastic behavior and thermal degradation mechanism
Super-crosslinked epoxy nanocomposites containing N-octadecyl-N '-octadecyl imidazolium iodide (IM)-functionalized montmorillonite (MMT-IM) nanoplatelets were developed and examined for cure kinetics, viscoelastic behavior and thermal degradation kinetics. The structure and morphology of MMT-IM were characterized by FTIR, XRD, TEM, and TGA. Synthesized MMT-IM revealed synergistic effects on the network formation, the glass transition temperature (T-g) and thermal stability of epoxy. Cure and viscoelastic behaviors of epoxy nanocomposites containing 0.1 wt% MMT and MMT-IM were compared based on DSC and DMA, respectively. Activation energy profile as a function of the extent of cure was obtained. DMA results indicated a strong interface between imidazole groups of MMT-IM and epoxy, which caused a significant improvement in storage modulus and the T-g of epoxy. Network degradation kinetics of epoxy containing 0.5, 2.0, and 5.0 wt% MMT and MMT-IM were compared by using Friedman, Kissinger-Akahira-Sunose (KAS), Flynn-Wall-Ozawa (FWO) and the modified Coats-Redfern methods. Although addition of MMT to epoxy was detrimental to the T-g value, as featured by a fall from 94.1 degrees C to 89.7 degrees C detected by DMA method, and from 103.3 degrees C to 97.9 degrees C by DSC method, respectively. By contrast, meaningful increase in such values were observed in the same order from 94.1 degrees C to 94.7 degrees C and from 103.3 degrees C to 104.7 degrees C for super-crosslinked epoxy/MMT-IM systems.