A monolithic energy conserving method to couple heterogeneous time integrators with incompatible time steps in structural dynamics
From MaRDI portal
Publication:646326
DOI10.1016/j.cma.2010.12.004zbMath1225.74043OpenAlexW2054731935MaRDI QIDQ646326
N. Greffet, Najib Mahjoubi, Alain Combescure, Anthony Gravouil
Publication date: 16 November 2011
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.2010.12.004
Lua error in Module:PublicationMSCList at line 37: attempt to index local 'msc_result' (a nil value).
Related Items (18)
Wave filtering through a selective perfectly matched layer in multiscale couplings with dynamically incompatible models ⋮ Coupling of SPH-ALE method and finite element method for transient fluid-structure interaction ⋮ Discussions on a macro multi-time scales coupling method: existence and uniqueness of the numerical solution and strict non-negativity of the Schur complement ⋮ Can complex systems really be simulated? ⋮ Concurrent Multi-Domain Simulations in Structural Dynamics Using Multiple Grid and Multiple Time-Scale (MGMT) Method ⋮ Monolithic and partitioned time integration methods for real-time heterogeneous simulations ⋮ A domain decomposition approach for the simulation of fracture phenomena in polycrystalline microsystems ⋮ Two FETI-based heterogeneous time step coupling methods for Newmark and \(\alpha\)-schemes derived from the energy method ⋮ Convergence results of a heterogeneous asynchronous newmark time integrators ⋮ A fast weakly intrusive multiscale method in explicit dynamics ⋮ Heterogeneous asynchronous time integrators for computational structural dynamics ⋮ Efficient implementation of an explicit partitioned shear and longitudinal wave propagation algorithm ⋮ A partitioned combined computational method for multi‐scale dynamic systems ⋮ A new heterogeneous asynchronous explicit-implicit time integrator for nonsmooth dynamics ⋮ Arlequin framework for multi-model, multi-time scale and heterogeneous time integrators for structural transient dynamics ⋮ On multi-time-step monolithic coupling algorithms for elastodynamics ⋮ A coupling strategy for adaptive local refinement in space and time with a fixed global model in explicit dynamics ⋮ A non-intrusive partitioned approach to couple smoothed particle hydrodynamics and finite element methods for transient fluid-structure interaction problems with large interface motion
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- A monolithic approach to fluid-structure interaction
- Stability of multi-time step partitioned integrators for first-order finite element systems
- Exact energy-momentum conserving algorithms and symplectic schemes for nonlinear dynamics
- A numerical scheme to couple subdomains with different time-steps for predominantly linear transient analysis
- A partial velocity approach to subcycling structural dynamics.
- A study of the stability of subcycling algorithms in structural dynamics
- Provably second-order time-accurate loosely-coupled solution algorithms for transient nonlinear computational aeroelasticity
- Multi-time-step explicit-implicit method for non-linear structural dynamics
- Variational time integrators
- The Numerical Solution of Parabolic and Elliptic Differential Equations
- On the Numerical Solution of Heat Conduction Problems in Two and Three Space Variables
- Explicit Newmark/Verlet algorithm for time integration of the rotational dynamics of rigid bodies
- The role of geometric stiffness in momentum and energy conserving time integration
- Extended state-space time integration with high-frequency energy dissipation
- Algorithms by design: A new normalized time-weighted residual methodology and design of a family of energy-momentum conserving algorithms for non-linear structural dynamics
- Multi-time-step integration using nodal partitioning
- Mixed-time implicit-explicit finite elements for transient analysis
- Unconditionally stable algorithms for rigid body dynamics that exactly preserve energy and momentum
- Implicit-Explicit Finite Elements in Transient Analysis: Stability Theory
- Implicit-Explicit Finite Elements in Transient Analysis: Implementation and Numerical Examples
- Stability of explicit‐implicit mesh partitions in time integration
- Analysis and implementation of a new constant acceleration subcycling algorithm
- Time-decomposed parallel time-integrators: theory and feasibility studies for fluid, structure, and fluid-structure applications
- Explicit/implicit partitioning and a new explicit form of the generalized alpha method
- Design, analysis, and synthesis of generalized single step single solve and optimal algorithms for structural dynamics
- An approach to the connection between subdomains with non-matching meshes for transient mechanical analysis
- Local modal reduction in explicit dynamics with domain decomposition. Part 1: extension to subdomains undergoing finite rigid rotations
- A FETI‐based multi‐time‐step coupling method for Newmark schemes in structural dynamics
- Fluid-structure interaction with large structural displacements
- Partitioned procedures for the transient solution of coupled aeroelastic problems. II: Energy transfer analysis and three-dimensional applications
- Partitioned analysis of coupled mechanical systems
- Stability of an explicit multi-time step integration algorithm for linear structural dynamics equations
This page was built for publication: A monolithic energy conserving method to couple heterogeneous time integrators with incompatible time steps in structural dynamics
