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A revisitation of White−Metzner viscoelastic fluids

Huan‐Chang Tseng

2021Physics of Fluids21 citationsDOI

Abstract

The famous White–Metzner (WM) constitutive equation expresses a relatively simple nonlinear viscoelastic fluid of polymer melts. However, such a differential stress model, substantial with strong hyperbolic and singular problems, has hitherto always obtained unsatisfactory simulations of corner vortex in a typical contraction flow, especially for high Weissenberg numbers. A modified WM model useful for viscoelastic fluid computations is, therefore, proposed herein. As a validation, this model primarily fits the first normal stress difference for characterizing a fluid's elasticity, as well as shear viscosity and extensional viscosity. It is significant to discuss the vortex formation and growth, with the predicted vortex sizes in good agreement with the experimental data.

Topics & Concepts

Weissenberg numberPhysicsViscoelasticityExtensional viscosityVortexElasticity (physics)MechanicsViscosityNonlinear systemConstitutive equationClassical mechanicsFluid dynamicsShear flowNewtonian fluidThermodynamicsShear viscosityFinite element methodQuantum mechanicsRheology and Fluid Dynamics StudiesFluid Dynamics and Thin FilmsFluid Dynamics and Turbulent Flows
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