Spatially mixed implicit-explicit schemes in hydro-mechanically coupled soil dynamics

被引:0
|
作者
Staubach, Patrick [1 ]
Machacek, Jan [2 ]
机构
[1] Bauhaus Univ Weimar, Inst Struct Engn, Chair Geotech, Weimar, Germany
[2] Tech Univ Darmstadt, Inst Geotech, Darmstadt, Germany
来源
COMPUTERS AND GEOTECHNICS | 2024年 / 176卷
关键词
Soil dynamics; IMEX; Explicit time integration; Implicit time integration; Coupled analyses; Multi-phase hourglass; Multi-phase contact; COMPUTATIONAL STRUCTURAL DYNAMICS; TIME-INTEGRATION METHODS; FORMULATION;
D O I
10.1016/j.compgeo.2024.106811
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
Mixed implicit-explicit (IMEX) schemes combine elements of both implicit and explicit time integration methods. This allows to efficiently handle boundary value problems with severe differences in stiffness, such as often encountered in soil dynamics. A spatially mixed IMEX scheme, in which different parts of the computational domain may be treated implicitly or explicitly depending on their behaviour, is discussed in this work. Domain decomposition by means of a mortar contact discretisation is used for this purpose and multiple systems of equations are solved. The merits of the scheme in solving problems of soil dynamics are demonstrated, for which the governing equations are extended to hydro-mechanical coupling.
引用
收藏
页数:10
相关论文
共 50 条
  • [31] The 2D hydro-mechanically coupled response of a rock mass with fractures via a mixed BEM-FEM technique
    Fidelibus, C.
    INTERNATIONAL JOURNAL FOR NUMERICAL AND ANALYTICAL METHODS IN GEOMECHANICS, 2007, 31 (11) : 1329 - 1348
  • [32] Combined implicit-explicit algorithms for non-linear structural dynamics
    Noels, Ludovic
    Stainier, Laurent
    Ponthot, Jean-Philippe
    Bonini, Jérôme
    Revue Europeenne des Elements, 2002, 11 (05): : 565 - 591
  • [33] Implicit-explicit higher-order time integration schemes for computations of structural dynamics with fluid-structure interaction
    Pedro, Jose C.
    Banda, Mapundi K.
    Sibanda, Precious
    APPLICATIONS AND APPLIED MATHEMATICS-AN INTERNATIONAL JOURNAL, 2015, 10 (01): : 287 - 311
  • [34] 3D hydro-mechanically coupled groundwater flow modelling of Pleistocene glaciation effects
    Ruehaak, Wolfram
    Bense, Victor F.
    Sass, Ingo
    COMPUTERS & GEOSCIENCES, 2014, 67 : 89 - 99
  • [35] IMPLICIT-EXPLICIT RUNGE-KUTTA SCHEMES FOR HYPERBOLIC SYSTEMS WITH STIFF RELAXATION AND APPLICATIONS
    Boscarino, Sebastiano
    Russo, Giovanni
    HYPERBOLIC PROBLEMS: THEORY, NUMERICS, APPLICATIONS, 2014, 8 : 61 - 80
  • [36] IMPLICIT-EXPLICIT RUNGE-KUTTA SCHEMES FOR NUMERICAL DISCRETIZATION OF OPTIMAL CONTROL PROBLEMS
    Herty, M.
    Pareschi, L.
    Steffensen, S.
    SIAM JOURNAL ON NUMERICAL ANALYSIS, 2013, 51 (04) : 1875 - 1899
  • [37] HIGH ORDER ASYMPTOTIC PRESERVING DEFERRED CORRECTION IMPLICIT-EXPLICIT SCHEMES FOR KINETIC MODELS
    Abgrall, Remi
    Torlo, Davide
    SIAM JOURNAL ON SCIENTIFIC COMPUTING, 2020, 42 (03): : B816 - B845
  • [38] A mixed implicit-explicit finite difference scheme for heat transport in magnetised plasmas
    Guenter, S.
    Lackner, K.
    JOURNAL OF COMPUTATIONAL PHYSICS, 2009, 228 (02) : 282 - 293
  • [39] MIXED-TIME IMPLICIT-EXPLICIT FINITE-ELEMENTS FOR TRANSIENT ANALYSIS
    LIU, WK
    BELYTSCHKO, T
    COMPUTERS & STRUCTURES, 1982, 15 (04) : 445 - 450
  • [40] Implicit-Explicit Runge-Kutta Schemes for the Boltzmann-Poisson System for Semiconductors
    Dimarco, Giacomo
    Pareschi, Lorenzo
    Rispoli, Vittorio
    COMMUNICATIONS IN COMPUTATIONAL PHYSICS, 2014, 15 (05) : 1291 - 1319
12345