Large Deformation Shear and Elongation Rheology
Of Polymers for Electrospinning and other Industrial Processes
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The goals of this book are the characterization of polymer melts using mainly non-linear shear and extensional rheological techniques, the fabrication of scaffolds with excellent physical and mechanical properties using the solution electrospinning technology for tissue engineering applications and the development of melt electrospinning equipment to facilitate the fabrication of solvent free scaffolds. To achieve the first goal, we focused on the characterization of entangled polymer melts in the linear and nonlinear viscoelastic regimes. The influence of molecular weight, Mw, molecular weigh...
The goals of this book are the characterization of polymer melts using mainly non-linear shear and extensional rheological techniques, the fabrication of scaffolds with excellent physical and mechanical properties using the solution electrospinning technology for tissue engineering applications and the development of melt electrospinning equipment to facilitate the fabrication of solvent free scaffolds. To achieve the first goal, we focused on the characterization of entangled polymer melts in the linear and nonlinear viscoelastic regimes. The influence of molecular weight, Mw, molecular weight distribution (MWD), long-chain branching (LCB) and addition of particles to the polymer matrix on polymer melt properties were investigated using shear and extensional rheological techniques. The resulting structure-property relationships were established using newly introduced mechanical parameters under large amplitude oscillatory shear (LAOS) flow.
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