Stabilized shock hydrodynamics. I: A Lagrangian method

A cell-centered Lagrangian hydrodynamics scheme on general unstructured meshes in arbitrary dimension, Multi-scale Lagrangian shock hydrodynamics on Q1/P0 finite elements: theoretical framework and two-dimensional computations, Galilean invariance and stabilized methods for compressible flows, An upwind vertex centred finite volume solver for Lagrangian solid dynamics, A variational multiscale finite element method for monolithic ALE computations of shock hydrodynamics using nodal elements, Lagrangian cell-centered conservative scheme, A Nitsche method for wave propagation problems in time domain, Local bounds preserving stabilization for continuous Galerkin discretization of hyperbolic systems, Discrete equation method (DEM) for the simulation of viscous, compressible, two-phase flows, Isogeometric analysis of Lagrangian hydrodynamics, A vertex centred finite volume Jameson-Schmidt-Turkel (JST) algorithm for a mixed conservation formulation in solid dynamics, A simple Cartesian scheme for compressible multimaterials, A discontinuous Galerkin discretization for solving the two-dimensional gas dynamics equations written under total Lagrangian formulation on general unstructured grids, A nearly-conservative, high-order, forward Lagrange-Galerkin method for the resolution of compressible flows on unstructured triangular meshes, A stabilised Petrov-Galerkin formulation for linear tetrahedral elements in compressible, nearly incompressible and truly incompressible fast dynamics, A first order hyperbolic framework for large strain computational solid dynamics. I: Total Lagrangian isothermal elasticity, Two-phase flow numerical simulation with real-gas effects and occurrence of rarefaction shock waves, Simulation-driven optimization of high-order meshes in ALE hydrodynamics, Discretization of hyperelasticity on unstructured mesh with a cell-centered Lagrangian scheme, A first order hyperbolic framework for large strain computational solid dynamics. II: Total Lagrangian compressible, nearly incompressible and truly incompressible elasticity, Stabilized methods for compressible flows, Constrained pseudo-transient continuation, A simple, stable, and accurate linear tetrahedral finite element for transient, nearly, and fully incompressible solid dynamics: a dynamic variational multiscale approach, A matrix-free hyperviscosity formulation for high-order ALE hydrodynamics, An acoustic Riemann solver for large strain computational contact dynamics, A machine learning approach to enhance the SUPG stabilization method for advection-dominated differential problems, A multi-scale residual-based anti-hourglass control for compatible staggered Lagrangian hydrodynamics, Staggered Grid Residual Distribution Scheme for Lagrangian Hydrodynamics, A new exceptional points method with application to cell-centered Lagrangian schemes and curved meshes, A conservative nodal variational multiscale method for Lagrangian shock hydrodynamics, Stabilization of cell-centered compressible Lagrangian methods using subzonal entropy, A compressible Lagrangian framework for the simulation of the underwater implosion of large air bubbles, A geometrically-conservative, synchronized, flux-corrected remap for arbitrary Lagrangian-Eulerian computations with nodal finite elements, Weak consistency of the cell-centered Lagrangian GLACE scheme on general meshes in any dimension, On the angular momentum conservation and incremental objectivity properties of a predictor/multi-corrector method for Lagrangian shock hydrodynamics, Stabilized shock hydrodynamics. II: Design and physical interpretation of the SUPG operator for Lagrangian computations, A discourse on Galilean invariance, SUPG stabilization, and the variational multiscale framework, A higher-order Lagrangian discontinuous Galerkin hydrodynamic method for solid dynamics, Residual-based shock capturing in solids, An Implicit Scheme for Moving Walls and Multi-Material Interfaces in Weakly Compressible Materials, An ALE/embedded boundary method for two-material flow simulations, Weak boundary conditions for wave propagation problems in confined domains: formulation and implementation using a variational multiscale method, The consistency of pressure-gradient approximations used in multi-dimensional shock hydrodynamics, Reale: a Reconnection-based Arbitrary-Lagrangian-Eulerian method, High-order curvilinear finite elements for axisymmetric Lagrangian hydrodynamics, A nearly-conservative high-order Lagrange-Galerkin method for the resolution of scalar convection-dominated equations in non-divergence-free velocity fields, A generalized view on Galilean invariance in stabilized compressible flow computations, Multi-scale Godunov-type method for cell-centered discrete Lagrangian hydrodynamics, An implicit stabilized finite element method for the compressible Navier-Stokes equations using finite calculus, A high-order cell-centered Lagrangian scheme for two-dimensional compressible fluid flows on unstructured meshes, Development of a stabilised Petrov-Galerkin formulation for conservation laws in Lagrangian fast solid dynamics, Multidimensional Staggered Grid Residual Distribution Scheme for Lagrangian Hydrodynamics, A Lagrangian finite element method for 3D compressible flow applications, A velocity/stress mixed stabilized nodal finite element for elastodynamics: analysis and computations with strongly and weakly enforced boundary conditions

• HE-E1GODF

• Unnamed Item
• Unnamed Item
• Unnamed Item
• Unnamed Item
• Unnamed Item
• Unnamed Item
• Finite element methods for linear hyperbolic problems
• Stability of the SUPG finite element method for transient advection-diffusion problems
• Finite element methods for first-order hyperbolic systems with particular emphasis on the compressible Euler equations
• A new finite element formulation for computational fluid dynamics. VIII. The Galerkin/least-squares method for advective-diffusive equations
• The numerical simulation of two-dimensional fluid flow with strong shocks
• Errors for calculations of strong shocks using an artificial viscosity and an artificial heat flux
• A new finite element formulation for computational fluid dynamics. III: The generalized streamline operator for multidimensional advective- diffusive systems
• A new finite element formulation for computational fluid dynamics. VI. Convergence analysis of the generalized SUPG formulation for linear time- dependent multidimensional advective-diffusive systems
• Use of artificial viscosity in multidimensional fluid dynamic calculations
• Streamline upwind/Petrov-Galerkin formulations for convection dominated flows with particular emphasis on the incompressible Navier-Stokes equations
• A new two-dimensional flux-limited shock viscosity for impact calculations
• A new finite element formulation for computational fluid dynamics. IX: Fourier analysis of space-time Galerkin/least-squares algorithms
• Computational methods in Lagrangian and Eulerian hydrocodes
• A survey of several finite difference methods for systems of nonlinear hyperbolic conservation laws
• The variational multiscale method -- a paradigm for computational mechanics
• A space-time finite element method for the wave equation
• Higher order stabilized finite element method for hyperelastic finite deformation
• An analysis of the time integration algorithms for the finite element solutions of incompressible Navier--Stokes equations based on a stabilised formulation.
• The continuous Galerkin method is locally conservative
• Formulations of artificial viscosity for multi-dimensional shock wave computations
• A unified approach to compressible and incompressible flows
• Mesh update strategies in parallel finite element computations of flow problems with moving boundaries and interfaces
• A comparative study of different sets of variables for solving compressible and incompressible flows
• A stabilized mixed finite element method for finite elasticity. Formulation for linear displacement and pressure interpolation
• Stabilization and shock-capturing parameters in SUPG formulation of compressible flows
• Stabilized shock hydrodynamics. II: Design and physical interpretation of the SUPG operator for Lagrangian computations
• Multiscale phenomena: Green's functions, the Dirichlet-to-Neumann formulation, subgrid scale models, bubbles and the origins of stabilized methods
• On the Convergence of a Finite Element Method for a Nonlinear Hyperbolic Conservation Law
• Stability and Convergence of a Generalized Crank-Nicolson Scheme on a Variable Mesh for the Heat Equation
• On the Convergence of Shock-Capturing Streamline Diffusion Finite Element Methods for Hyperbolic Conservation Laws
• Long-time behaviour of arbitrary order continuous time Galerkin schemes for some one-dimensional phase transition problems
• Computation of moving boundaries and interfaces and stabilization parameters
• Global error control for the continuous Galerkin finite element method for ordinary differential equations
• Convergence of a Shock-Capturing Streamline Diffusion Finite Element Method for a Scalar Conservation Law in Two Space Dimensions
• Stabilized finite element method for viscoplastic flow: formulation with state variable evolution
• A continuous space-time finite element method for the wave equation
• Discrete Galerkin and Related One-Step Methods for Ordinary Differential Equations
• A Method for the Numerical Calculation of Hydrodynamic Shocks
• Stabilized finite element method for viscoplastic flow: Formulation and a simple progressive solution strategy
• A tensor artificial viscosity using a mimetic finite differential algorithm
• Simple stabilizing matrices for the computation of compressible flows in primitive variables