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The numerical prediction of planar viscoelastic contraction flows using the pom-pom model and higher-order finite volume schemesAGUAYO, J. P; PHILLIPS, P. M; PHILLIPS, T. N et al.Journal of computational physics (Print). 2007, Vol 220, Num 2, pp 586-611, issn 0021-9991, 26 p.Article

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A corrected smoothed particle hydrodynamics method for solving transient viscoelastic fluid flowsTAO JIANG; JIE OUYANG; QIANG LI et al.Applied mathematical modelling. 2011, Vol 35, Num 8, pp 3833-3853, issn 0307-904X, 21 p.Article

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Numerical solution of the extended Pom-Pom model for viscoelastic free surface flowsOISHI, C. M; MARTINS, F. P; TOME, M. F et al.Journal of non-newtonian fluid mechanics. 2011, Vol 166, Num 3-4, pp 165-179, issn 0377-0257, 15 p.Article

Efficient and stable spectral element methods for predicting the flow of an XPP fluid past a cylinderVAN OS, R. G. M; PHILLIPS, T. N.Journal of non-newtonian fluid mechanics. 2005, Vol 129, Num 3, pp 143-162, issn 0377-0257, 20 p.Article

Lubricated cross-slot flow of a low density polyethylene meltSOULAGES, J; SCHWEIZER, T; VENERUS, D. C et al.Journal of non-newtonian fluid mechanics. 2008, Vol 154, Num 1, pp 52-64, issn 0377-0257, 13 p.Article

Detection and quantification of industrial polyethylene branching topologies via Fourier-transform rheology, NMR and simulation using the Pom-pom modelVITTORIAS, Iakovos; PARKINSON, Matthew; KLIMKE, Katja et al.Rheologica acta. 2007, Vol 46, Num 3, pp 321-340, issn 0035-4511, 20 p.Article

The melt processing of monodisperse and polydisperse polystyrene melts within a slit entry and exit flowCOLLIS, M. W; MACKLEY, M. R.Journal of non-newtonian fluid mechanics. 2005, Vol 128, Num 1, pp 29-41, issn 0377-0257, 13 p.Conference Paper