Miguel Moyers-Gonzalez, Teodor Burghelea, Julian Mak
Published 2010-07-14Version 1
We study the linear stability of Plane Poiseuille flow of an elastoviscoplastic fluid using a revised version of the model proposed by Putz and Burghelea (Rheol. Acta (2009)48:673-689). The evolution of the microstructure upon a gradual increase of the external forcing is governed by a structural variable (the concentration of solid material elements) which decays smoothly from unity to zero as the stresses are gradually increased beyond the yield point. Stability results are in close conformity with the ones of a pseudo-plastic fluid. Destabilizing effects are related to the presence of an intermediate transition zone where elastic solid elements coexist with fluid elements. This region brings an elastic contribution which does modify the stability of the flow.
Linear stability analysis of non-isothermal plane Couette flow in an anisotropic and inhomogeneous porous layer underlying a fluid layer
Sedimentation and migration dynamics of a spherical particle in an elastoviscoplastic fluid near a wall
From linear stability analysis to three-dimensional organisation in an incompressible open cavity flow
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