Re-entrant corner behaviour of the Giesekus fluid with a solvent viscosity


Evans, J. D., 2010. Re-entrant corner behaviour of the Giesekus fluid with a solvent viscosity. Journal of Non-Newtonian Fluid Mechanics, 165 (9-10), pp. 538-543.

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The local asymptotic behaviour is described for planar re-entrant corner flows of a Giesekus fluid with a solvent viscosity. Similar to the PTT model, Newtonian velocity and stress fields dominate near to the corner. However, in contrast to PTT, a weaker polymer stress singularity is obtained O(r-((1-0)(3-0)/4)) with slightly thinner stress boundary layers of thickness O(r(3-0)/2), where 0 is the Newtonian flow field eigenvalue and r the radial distance from the corner. In the benchmark case of a 270 corner, we thus have polymer stress singularities of O(r-2/3) for Oldroyd-B, O(r-0.3286) for PTT and O(r-0.2796) for Giesekus. The wall boundary layer thicknesses are O(r4/3) for Oldroyd-B, O(r1.2278) for Giesekus and O(r1.1518) for PTT. Similar to the PTT model, these results for the Giesekus model breakdown in both the limits of vanishing solvent viscosity and vanishing quadratic stress terms (i.e. the Oldroyd-B limit).


Item Type Articles
CreatorsEvans, J. D.
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Uncontrolled Keywordsgiesekus model,solvent viscosity,stress singularities,giesekus fluids,radial distance,corner flow,local asymptotic,stress field,re-entrant corner,stress boundary layer,newtonians,oldroyd-b,eigen-value,polymer stress
DepartmentsFaculty of Science > Mathematical Sciences
ID Code18696


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