For the modeling of large deformations in multibody dynamics problems, the absolute nodal coordinate formulation (ANCF) is advantageous since in general, the ANCF leads to a constant mass matrix. The proposed ANCF beam finite elements in this approach use the transverse slope vectors for the parameterization of the orientation of the cross section and do not employ an axial nodal slope vector. The geometric description, the degrees of freedom, and a continuum-mechanics-based and a structural-mechanics-based formulation for the elastic forces of the beam finite elements, as well as their usage in several static problems, have been presented in a previous work. A comparison to results provided in the literature to analytical solution and to t...
The modeling of flexibility in multibody systems has received increase scrutiny in recent years. The...
The geometrically nonlinear formulation of three-dimensional (3D) curved beam elements with large ro...
In this paper, new planar isoparametric triangular finite elements (FE) based on the absolute nodal ...
In the present paper, a three-dimensional shear deformable beam finite element is presented, which i...
Recently, a finite element formulation, called the absolute nodal coordinate formulation (ANCF), was...
Abstract: Recently, a finite element formulation, called the absolute nodal coordinate formulation (...
A solid tetrahedral finite element employing the absolute nodal coordinate formulation (ANCF) is pre...
Large displacement and large strain problems of mechanical systems can be solved mainly by four meth...
In this paper, methods for developing isoparametric tetrahedral finite elements (FE) based on the ab...
The beam elements, which are widely used in the absolute nodal coordinate formulation (ANCF) can be ...
An approach to a shape optimization of elastic dynamic multibody systems is presented. The proposed ...
In this study, four absolute nodal coordinate formulation (ANCF)-based approaches are utilized in or...
The existing statically exact beam finite element (FE) based on the first order shear deformation th...
AbstractThe objective of this paper is to demonstrate the use of the absolute nodal coordinate formu...
A beam finite element formulation for large deflection problems in the analysis of flexible multibod...
The modeling of flexibility in multibody systems has received increase scrutiny in recent years. The...
The geometrically nonlinear formulation of three-dimensional (3D) curved beam elements with large ro...
In this paper, new planar isoparametric triangular finite elements (FE) based on the absolute nodal ...
In the present paper, a three-dimensional shear deformable beam finite element is presented, which i...
Recently, a finite element formulation, called the absolute nodal coordinate formulation (ANCF), was...
Abstract: Recently, a finite element formulation, called the absolute nodal coordinate formulation (...
A solid tetrahedral finite element employing the absolute nodal coordinate formulation (ANCF) is pre...
Large displacement and large strain problems of mechanical systems can be solved mainly by four meth...
In this paper, methods for developing isoparametric tetrahedral finite elements (FE) based on the ab...
The beam elements, which are widely used in the absolute nodal coordinate formulation (ANCF) can be ...
An approach to a shape optimization of elastic dynamic multibody systems is presented. The proposed ...
In this study, four absolute nodal coordinate formulation (ANCF)-based approaches are utilized in or...
The existing statically exact beam finite element (FE) based on the first order shear deformation th...
AbstractThe objective of this paper is to demonstrate the use of the absolute nodal coordinate formu...
A beam finite element formulation for large deflection problems in the analysis of flexible multibod...
The modeling of flexibility in multibody systems has received increase scrutiny in recent years. The...
The geometrically nonlinear formulation of three-dimensional (3D) curved beam elements with large ro...
In this paper, new planar isoparametric triangular finite elements (FE) based on the absolute nodal ...