A MINDLIN SHELL FINITE ELEMENT FOR STONE MASONRY BRIDGES WITH BACKFILL

被引:0
|
作者
RERICHA, P. E. T. R. [1 ]
机构
[1] Czech Tech Univ, Fac Civil Engn, Thakurova 7, Prague, Czech Republic
来源
ACTA POLYTECHNICA | 2022年 / 62卷 / 02期
关键词
Masonry arches; no tension joints; thick shell elements; octave script;
D O I
10.14311/AP.2022.62.0293
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Stone masonry bridges are difficult to analyse with commercial finite element (FE) packages for their specific heterogeneous composition. The stone arch is best modelled as a thick shell where there are predestined directions of tension failure, normal to the bed joints. A dedicated, very simple, Mindlin shell finite element is developed with five translational degrees of freedom per node. It features compatibility with linear isoparametric or constant strain elements for the backfill. Most bridges can be analysed with a sufficient accuracy assuming plain strain conditions. The element then simplifies to a Timoshenko beam element with three translational degrees of freedom per node. An application of the latter one to the bridge at Ponikla is presented.
引用
收藏
页码:293 / 302
页数:10
相关论文
共 50 条
  • [41] A NEW HYBRID QUADRILATERAL FINITE ELEMENT FOR MINDLIN PLATE
    秦奕
    张敬宇
    Applied Mathematics and Mechanics(English Edition), 1994, (02) : 189 - 199
  • [42] Experimental investigation on the shear behaviour of the brickwork-backfill interface in masonry arch bridges
    Liu, Bowen
    Drougkas, Anastasios
    Sarhosis, Vasilis
    Smith, Colin C.
    Gilbert, Matthew
    ENGINEERING STRUCTURES, 2023, 292
  • [43] New hybrid quadrilateral finite element for Mindlin plate
    Chin, Yi
    Zhang, Jingyu
    Applied Mathematics and Mechanics (English Edition), 1994, 15 (02) : 189 - 199
  • [44] Micro-mechanical finite element modeling of diagonal compression test for historical stone masonry structure
    Zhang, Shenghan
    Mousavi, Seyedeh Mohadeseh Taheri
    Richart, Nicolas
    Molinari, Jean-Francois
    Beyer, Katrin
    INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES, 2017, 112 : 122 - 132
  • [45] Correction to: A Consistent Finite Element Formulation of the Geometrically Non-linear Reissner-Mindlin Shell Model
    Manfred Bischoff
    Alexander Müller
    Archives of Computational Methods in Engineering, 2023, 30 (5) : 3483 - 3483
  • [46] A MINDLIN SHELL ELEMENT THAT SATISFIES RIGID-BODY REQUIREMENTS
    HANSEN, JS
    HEPPLER, GR
    AIAA JOURNAL, 1985, 23 (02) : 288 - 295
  • [47] Three-dimensional adaptive limit analysis of masonry arch bridges interacting with the backfill
    Papa, Tommaso
    Grillanda, Nicola
    Milani, Gabriele
    ENGINEERING STRUCTURES, 2021, 248
  • [48] Seismic analysis of dry stone masonry structures based on combined finite-discrete element method
    Nikolic, Zeljana
    Smoljanovic, Hrvoje
    Zivaljic, Nikolina
    EURODYN 2014: IX INTERNATIONAL CONFERENCE ON STRUCTURAL DYNAMICS, 2014, : 1777 - 1782
  • [49] A finite-discrete element model for dry stone masonry structures strengthened with steel clamps and bolts
    Smoljanovic, Hrvoje
    Nikolic, Zeljana
    Zivaljic, Nikolina
    ENGINEERING STRUCTURES, 2015, 90 : 117 - 129
  • [50] Ten stone masonry arch bridges and five different assessment approaches
    Gibbons, Niamh
    Fanning, Paul J.
    PROCEEDINGS OF THE 6TH INTERNATIONAL CONFERENCE ON ARCH BRIDGES (ARCH '10), 2010, : 482 - 489
12345