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References

  • 1
    Hübner B, Dinkler D. A simultaneous solution procedure for strong interactions of generalised Newtonian fluids and viscoelastic solids at large strains. International Journal for Numerical Methods in Engineering 2005; 64:920939.
  • 2
    Bazilevs Y, Calo VM, Hughes TJR, Zhang Y. Isogeometric fluid–structure interaction: theory, algorithms, and computations. Computational Mechanics 2008; 43:337.
  • 3
    Jansen KE, Whiting CH, Hulbert GM. A generalized-α method for integrating the filtered Navier–Stokes equations with a stabilized finite element method. Computer Methods in Applied Mechanics and Engineering 2000; 190:305319.
  • 4
    Chung J, Hulbert GM. A time integration algorithm for structural dynamics with improved numerical dissipation: the generalized-α method. Journal of Applied Mechanics 1993; 60:371375.
  • 5
    Wall WA. Fluid-Struktur-Interaktion mit stabilisierten Finiten Elementen. Ph.D. Thesis, Stuttgart University, 1999.
  • 6
    Küttler U, Wall WA. Fixed-point fluid–structure interaction solvers with dynamic relaxation. Computational Mechanics 2008; 43:6172.
  • 7
    Sternel DC, Schäfer M, Heck M, Yigit S. Efficiency and accuracy of fluid–structure interaction simulations using an implicit partitioned approach. Computational Mechanics 2008; 43:103113.
  • 8
    Heil M, Hazel AL, Boyle J. Solvers for large-displacement fluid–structure interaction problems: segregated versus monolithic approaches. Computational Mechanics 2008; 43:91101.
  • 9
    Fernández MA, Moubachir M. A Newton method using exact jacobians for solving fluid–structure coupling. Computers and Structures 2005; 83:127142.
  • 10
    Löhner R, Yang C, Oñate E. Simulation of flows with violent free surface motion and moving objects using unstructured grids. International Journal for Numerical Methods in Fluids 2007; 53:13151338.
  • 11
    Matthies HG, Niekamp R, Steindorf J. Algorithms for strong coupling procedures. Computer Methods in Applied Mechanics and Engineering 2006; 195:20282049.
  • 12
    Tezduyar T. Finite element methods for flow problems with moving boundaries and interfaces. Archives of Computational Methods in Engineering 2001; 8:83130.
  • 13
    Tezduyar TE, Sathe S. Modeling of fluid–structure interactions with the space–time finite elements: Solution techniques. International Journal for Numerical Methods in Fluids 2007; 54:855900.
  • 14
    Tezduyar TE, Schwaab M, Sathe S. Sequentially-coupled arterial fluid–structure interaction (SCAFSI) technique. Computer Methods in Applied Mechanics and Engineering 2009; 198:35243533.
  • 15
    Dettmer WG, Perić D. A computational framework for free surface fluid flows accounting for surface tension. Computer Methods in Applied Mechanics and Engineering 2006; 195:30383071.
  • 16
    Dettmer WG, Perić D. A computational framework for fluid-rigid body interaction: finite element formulation and applications. Computer Methods in Applied Mechanics and Engineering 2006; 195:16331666.
  • 17
    Dettmer WG, Perić D. A computational framework for fluid–structure interaction: finite element formulation and applications. Computer Methods in Applied Mechanics and Engineering 2006; 195:57545779.
  • 18
    Dettmer WG, Perić D. A fully implicit computational strategy for strongly coupled fluid–solid interaction. Archives of Computational Methods in Engineering 2007; 14:205247.
  • 19
    Dettmer WG, Perić D. On the coupling between fluid flow and mesh motion in the modelling of fluid–structure interaction. Computational Mechanics 2008; 43:8190.
  • 20
    Joosten MM, Dettmer WG, Perić D. Analysis of the block Gauss–Seidel solution procedure for a strongly coupled model problem with reference to fluid–structure interaction. International Journal for Numerical Methods in Engineering 2009; 78:757778.
  • 21
    Dettmer WG, Perić D. An analysis of the time integration algorithm for the finite element solutions of incompressible Navier–Stokes equations based on a stabilised formulation. Computer Methods in Applied Mechanics and Engineering 2003; 192:11771226.
  • 22
    Saksono PH, Dettmer WG, Perić D. An adaptive remeshing strategy for flows with moving boundaries and fluid–structure interaction. International Journal for Numerical Methods in Engineering 2007; 71:10091050.
  • 23
    Brooks AN, Hughes TJR. Streamline upwind/Petrov-Galerkin formulations for convection dominated flows with particular emphasis on the incompressible Navier–Stokes equations. Computer Methods in Applied Mechanics and Engineering 1982; 32:199259.
  • 24
    Tezduyar TE. Stabilized finite element formulations for incompressible flow computations. Advances in Applied Mechanics 1992; 28:144.