L. Y. Ma, B. Yu, X. D. Qian, W. Yang, H. F. Pan, Y. Q. Shi, L. Song and Y. Hu (2014) Functionalized graphene/thermoplastic polyester elastomer nanocomposites by reactive extrusion-based masterbatch: preparation and properties reinforcement. Journal/Polymers for Advanced Technologies 25 605-612. [In English]
Web link: http://dx.doi.org/10.1002/pat.3257
Keywords: ,reactive extrusion, masterbatch-based melt blending, functionalized, graphene, thermoplastic polyester elastomer, GRAPHENE OXIDE, POLYMER NANOCOMPOSITES, THERMAL-STABILITY, REDUCTION, COMPOSITES, BLENDS, POLYPROPYLENE, STRENGTH, BEHAVIOR

Abstract: A reactive extrusion process was developed to fabricate polymer/graphene nanocomposites with good dispersion of graphene sheets in the polymer matrix. The functionalized graphene nanosheet (f-GNS) activated by diphenylmethane diisocyanate was incorporated in thermoplastic polyester elastomer (TPEE) by reactive extrusion process to produce the TPEE/f-GNS masterbatch. And then, the TPEE/f-GNS nanocomposites in different ratios were prepared by masterbatch-based melt blending. The structure and morphology of functionalized graphene were characterized by Fourier transform infrared, X-ray photoelectron spectroscopy, X-ray diffraction and transmission electron microscopy (TEM). The incorporation of f-GNS significantly improved the mechanical, thermal and crystallization properties of TPEE. With the incorporation of only 0.1wt% f-GNS, the tensile strength and elongation at break of nanocomposites were increased by 47.6% and 30.8%, respectively, compared with those of pristine TPEE. Moreover, the degradation temperature for 10wt% mass loss, storage modulus at -70 degrees C and crystallization peak temperature (T-cp) of TPEE nanocomposites were consistently improved by 17 degrees C, 7.5% and 36 degrees C. The remarkable reinforcements in mechanical and thermal properties were attributed to the homogeneous dispersion and strong interfacial adhesion of f-GNS in the TPEE matrix. The functionalization of graphene was beneficial to the improvement of mechanical properties because of the relatively well dispersion of graphene sheets in TPEE matrix, as suggested in the TEM images. This simple and effective approach consisting of chemical functionalization of graphene, reactive extrusion and masterbatch-based melt blending process is believed to offer possibilities for broadening the graphene applications in the field of polymer processing. Copyright (C) 2014 John Wiley &, Sons, Ltd.