Multiscale numerical simulations of branched polymer melt viscoelastic flow based on double-equation XPP model
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Publication:1629242
DOI10.1155/2018/5838290zbMath1440.82015OpenAlexW2804433856WikidataQ129742230 ScholiaQ129742230MaRDI QIDQ1629242
Publication date: 11 December 2018
Published in: Advances in Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1155/2018/5838290
Statistical mechanics of nanostructures and nanoparticles (82D80) Basic methods in statistical mechanics (82M99)
Cites Work
- Numerical simulation of flow past a cylinder using models of XPP type
- Anisotropy parameter restrictions for the eXtended Pom-Pom model
- A numerical study of constitutive models endowed with pom-pom molecular attributes
- Modeling and simulation of three-dimensional planar contraction flow of viscoelastic fluids with PTT, Giesekus and FENE-P constitutive models
- Numerical study for differential constitutive equations with polymer melts by using a hybrid finite-element/volume method
- The numerical prediction of planar viscoelastic contraction flows using the pom--pom model and higher-order finite volume schemes
- Computation of incompressible and weakly-compressible viscoelastic liquids flow: finite element/volume schemes
- A mixed finite element scheme for viscoelastic flows with XPP model
- 3D viscoelastic analysis of a polymer solution in a complex flow
- Numerical simulations of the planar contraction flow for a polyethylene melt using the XPP model
- Extensional response of the pom-pom model through planar contraction flows for branched polymer melts
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