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Abstract:Polyethylene-based composites have been successfully prepared via in-si tu ethylene polymerization with a metallocene catalyst previously deposited on the surface of kaolin particles. Molecular weight (Mw) of the polyethylene matrix has been estimated from intrinsic viscosity. The filler-matrix interfacial adhesion, rheological behavior, induced nucleation effect, and mechanical properties have been investigated in relation to kaolin filler content. Furthermore, these properties have been compared to those of the melt-mixed counterpart composites. As a rule, the polymerizationfilled composites exhibit improved rheological behaviors and mechanical properties compared to the analogues prepared by melt mixing. The improved rheological behaviors and mechanical properties of polymerization-filled polyethylene/kaolin composites are thought to result from the lessening of high elasticity of polyethylene melt, the nucleation of polyethylene crystallization, fine filler dispersion, and good filler-polymer interfacial adhesion. By contrast, the melt-mixed counterpart composites show no obvious enhancement of properties. The superiority of polymerization-filled polyethylene/kaolin composites over melt-mixed composites indicates the formation of good kaolinpolyethylene interfacial adhesion in polymerization-filled composites.
Volume:14
Issue:2
Translation or Not:no