Add to ORKGA computationally efficient beam finite element is presented for the static and dynamic analysis of frame structures with any number and location of concentrated damages, whose macroscopic effects are simulated with a set of longitudinal, rotational and transversal elastic springs at the position of each singularity. The proposed mathematical model exploits positive Dirac's deltas in the corresponding flexibility functions of the beam elements, and allows also considering shear deformations and rotatory inertia. Such contributions may have a huge impact on the higher modes of vibration, as confirmed by the numerical examples
Non-linear dynamic analysis of complex civil engineering structures based on a detailed finite eleme...
This paper describes the computational aspects of the beam Finite Element formulation recently devel...
In this paper an improved one-dimensional frame element for modelling of reinforced concrete beams a...
A computationally efficient beam finite element is presented for the static and dynamic analysis of ...
The thesis presents a novel computational method for analysing the static and dynamic behaviour of a...
Numerical simulation of large-scale problems in structural dynamics, such as structures subject to e...
AbstractDirac’s delta functions enable simple and effective representations of point loads and singu...
Inelastic beam elements are widely used in the analysis of structures subjected to seismic actions. ...
This paper presents the formulation for a novel flexibility-based 1D frame element that captures mat...
Includes bibliographical references (page 77)The purpose of this project is to analyze\ud the natura...
Dirac’s delta functions enable simple and effective representations of point loads and singularities...
Localized flexibility models of cracks enable one for simple and effective representation of the beh...
International audienceThis paper proposes a new simplified computer-based procedure for the dynamic ...
A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an indepe...
An approach to quantify the severity of damage in Euler-Bernoulli beams from changes in modal flexib...
Non-linear dynamic analysis of complex civil engineering structures based on a detailed finite eleme...
This paper describes the computational aspects of the beam Finite Element formulation recently devel...
In this paper an improved one-dimensional frame element for modelling of reinforced concrete beams a...
A computationally efficient beam finite element is presented for the static and dynamic analysis of ...
The thesis presents a novel computational method for analysing the static and dynamic behaviour of a...
Numerical simulation of large-scale problems in structural dynamics, such as structures subject to e...
AbstractDirac’s delta functions enable simple and effective representations of point loads and singu...
Inelastic beam elements are widely used in the analysis of structures subjected to seismic actions. ...
This paper presents the formulation for a novel flexibility-based 1D frame element that captures mat...
Includes bibliographical references (page 77)The purpose of this project is to analyze\ud the natura...
Dirac’s delta functions enable simple and effective representations of point loads and singularities...
Localized flexibility models of cracks enable one for simple and effective representation of the beh...
International audienceThis paper proposes a new simplified computer-based procedure for the dynamic ...
A 3D mixed beam finite element is presented, modeling the warping of the cross-sections as an indepe...
An approach to quantify the severity of damage in Euler-Bernoulli beams from changes in modal flexib...
Non-linear dynamic analysis of complex civil engineering structures based on a detailed finite eleme...
This paper describes the computational aspects of the beam Finite Element formulation recently devel...
In this paper an improved one-dimensional frame element for modelling of reinforced concrete beams a...