"\u010Cajka, Radim" . "Cambridge" . . "RIV/61989100:27120/14:86092486" . "Foundation structure, soil \u2013 structure interaction, contact stress, 3D FEM element"@en . . "Influence of parameters of a 3D numerical model on deformation arising in interaction of a foundation structure and subsoil"@en . "6"^^ . "2"^^ . . "Influence of parameters of a 3D numerical model on deformation arising in interaction of a foundation structure and subsoil" . "Labudkov\u00E1, Jana" . "978-960-474-352-0" . "27120" . "Influence of parameters of a 3D numerical model on deformation arising in interaction of a foundation structure and subsoil"@en . . "For decade\u2019s attention has been paid to interaction of foundation structures and subsoil and, in turn, to development of interaction models.Complexity of a static solution is given mainly by selection of a computational model, effects of physical-nonlinear behaviour of such structure and co-effects of the upper structure and the foundation structure.The purpose of this paper is to compare the measured subsidence of the foundation in experiments based on FEM calculations. This paper describes how calculated deformations depend on parameters of soil environment modelled by 3D finite elements.When 3D elements are used for 3D tasks, the final deformation is considerably influenced by the size of the modelled area which represents the subsoil and by boundary conditions."@en . . . . . "2227-4359" . "Influence of parameters of a 3D numerical model on deformation arising in interaction of a foundation structure and subsoil" . "WSEAS Press" . "For decade\u2019s attention has been paid to interaction of foundation structures and subsoil and, in turn, to development of interaction models.Complexity of a static solution is given mainly by selection of a computational model, effects of physical-nonlinear behaviour of such structure and co-effects of the upper structure and the foundation structure.The purpose of this paper is to compare the measured subsidence of the foundation in experiments based on FEM calculations. This paper describes how calculated deformations depend on parameters of soil environment modelled by 3D finite elements.When 3D elements are used for 3D tasks, the final deformation is considerably influenced by the size of the modelled area which represents the subsoil and by boundary conditions." . "Budape\u0161\u0165" . . "[5CD87AB3EC19]" . . . . "RIV/61989100:27120/14:86092486!RIV15-MPO-27120___" . "P(FR-TI2/746)" . . . "2013-12-10+01:00"^^ . . . . "21544" . . "2"^^ . "Recent Advances in Urban Planning and Construction : proceedings of the 4th International Conference on Urban Sustainability, Cultural Sustainability, Green Development, Green Structures and Clean Cars, (USCUDAR '13)" .