The paper presents the author’s non-linear FEM solution of an initially stressless deformed flat frame element, in which the nodes are situated along the axis of the bar initially straight. It has been assumed that each node may sustain arbitrary displacements and rotation. The solution takes into account the effect of shear, the geometrical non-linearity with large displacements (Green-Lagrange’s strain tensor) and moderate rotations (i.e. such ones which allow a linear-elastic behaviour of the material) and alternative small rotations when the second Piola-Kirchhoff stress tensor is applied. This solution is based on [1], concerning beams without any initial bow imperfections. The convergence of the obtained results at different numbers o...
Elastic structures exhibit instabilities which arise through the occurrence of finite displacements ...
Two-dimensional geometrically non-linear beam element is considered in this paper. The explicit expr...
The present work focuses on the 2-D formulation of a nonlinear beam model for slender structures tha...
The paper presents the author’s non-linear FEM solution of an initially stressless deformed flat fra...
The paper is centered on an iterative procedure, which can be adopted for the structural analysis of...
The objective of this research is to formulate a general curved frame finite element based on a conv...
The geometrically nonlinear formulation of three-dimensional (3D) curved beam elements with large ro...
The dissertation deals with solution of beam and frame structure considering material nonlinearity. ...
This paper presents a simple formulation to deal with large deflections in 2D frames by the Finite E...
Many works deal with possible approaches to develop an efficient beam element for large displacement...
For several decades, the finite element method (FEM) has been widely used in nonlinear analysis of t...
A finite element model for the non-linear analysis of flexibly connected steel frames is proposed. T...
The formulation of a family of advanced one-dimensional finite elements for the geometrically nonlin...
This study concerns the formulation and validation of a 3d frame element that accounts for the inela...
The existing statically exact beam finite element (FE) based on the first order shear deformation th...
Elastic structures exhibit instabilities which arise through the occurrence of finite displacements ...
Two-dimensional geometrically non-linear beam element is considered in this paper. The explicit expr...
The present work focuses on the 2-D formulation of a nonlinear beam model for slender structures tha...
The paper presents the author’s non-linear FEM solution of an initially stressless deformed flat fra...
The paper is centered on an iterative procedure, which can be adopted for the structural analysis of...
The objective of this research is to formulate a general curved frame finite element based on a conv...
The geometrically nonlinear formulation of three-dimensional (3D) curved beam elements with large ro...
The dissertation deals with solution of beam and frame structure considering material nonlinearity. ...
This paper presents a simple formulation to deal with large deflections in 2D frames by the Finite E...
Many works deal with possible approaches to develop an efficient beam element for large displacement...
For several decades, the finite element method (FEM) has been widely used in nonlinear analysis of t...
A finite element model for the non-linear analysis of flexibly connected steel frames is proposed. T...
The formulation of a family of advanced one-dimensional finite elements for the geometrically nonlin...
This study concerns the formulation and validation of a 3d frame element that accounts for the inela...
The existing statically exact beam finite element (FE) based on the first order shear deformation th...
Elastic structures exhibit instabilities which arise through the occurrence of finite displacements ...
Two-dimensional geometrically non-linear beam element is considered in this paper. The explicit expr...
The present work focuses on the 2-D formulation of a nonlinear beam model for slender structures tha...