Efficient numerical computations of yield stress fluid flows using second-order cone programming

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DOI10.1016/j.cma.2014.10.008zbMath1423.76031OpenAlexW2009905533MaRDI QIDQ1667464

Philippe Coussot, Patrick de Buhan, Mathilde Maillard, Jeremy Bleyer

Publication date: 30 August 2018

Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1016/j.cma.2014.10.008

zbMATH Keywords

finite element method viscoplasticity Bingham model second-order cone programming Herschel-Bulkley model yield stress fluids

Mathematics Subject Classification ID

Semidefinite programming (90C22) Small-strain, rate-dependent theories of plasticity (including theories of viscoplasticity) (74C10) Viscoelastic fluids (76A10) Finite element methods applied to problems in fluid mechanics (76M10)

Related Items (10)

Transient motions of elasto-viscoplastic thixotropic materials subjected to an imposed stress field and to stress-based free-surface boundary conditions ⋮ Hybrid discretization methods with adaptive yield surface detection for Bingham pipe flows ⋮ Second-order cone programming formulation for consolidation analysis of saturated porous media ⋮ Ellipsoidal load-domain shakedown analysis with von Mises yield criterion: A robust optimization approach ⋮ Formulation for wave propagation in dissipative media and its application to absorbing layers in elastoplastic analysis using mathematical programming ⋮ Accelerated proximal gradient method for elastoplastic analysis with von Mises yield criterion ⋮ A unified Lagrangian formulation for solid and fluid dynamics and its possibility for modelling submarine landslides and their consequences ⋮ Simulation of non-Newtonian viscoplastic flows with a unified first order hyperbolic model and a structure-preserving semi-implicit scheme ⋮ Interior-point methods for the phase-field approach to brittle and ductile fracture ⋮ Advances in the simulation of viscoplastic fluid flows using interior-point methods

Uses Software

Mosek

Cites Work

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