Linear Rheological Properties of the Semifluorinated Copolymer Tetrafluoroethylene-Hexafluoropropylene-Vinylidenfluoride (THV) with Controlled Amounts of Long-Chain Branching
2007
Various semifluorinated polymers of narrow molar mass distributions and definitely changed molecular structure are employed as model substances to investigate the impact of the polymer architecture on key rheological properties in the linear range of shear flow. These model samples originate from free radical terpolymerizations of tetrafluoroethylene (TFE), hexafluoropropylene (HFP), and vinylidenfluoride (VDF), referred to as THV. They were tailored to cover a broad range of mass-average molar masses of a straight linear and of a long-chain branched topography. By the controlled incorporation of long-chain branches (LCB) into the fluoropolymers, a complex thermorheological behavior is observed. The effect of long-chain branching also becomes evident by dynamic-mechanical measurements represented by a plot of the angle δ versus the complex modulus |G*(ω)|. Compared to the linear reference materials for which η0 ∼ Mw3.8 was found, the zero-shear rate viscosity η0 of some of the branched polymers is signifi...
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