Two approaches for the development of the equations of flexible body motions subject to large overall motions and forces are presented and their properties are compared. The required geometric stiffening terms are derived using the virtual power principle. Their influence is studied for a rotating slender beam
The aim of this report is to analyze and compare two rotating beam examples, for which the incorpora...
Abstract. In this paper, a review of past and recent developments in the dynamics of flexible multib...
Two approaches are developed to analyze the dynamic behavior of flexible multibody systems. In the f...
For simulations of flexible multibody systems (MBS) the theory of elasticity and the Rayleigh-Ritz a...
Geometric, rotational or dynamic stiffening is a well and long known phenomenon in the analysis of f...
The dynamics of flexible space structures may be analyzed using finite element or multibody system c...
In this paper we discuss the issue of geometric stiffening as it arises in the context of multibody ...
In multibody system simulation for vehicle dynamics applications, it is often sufficient to consider...
A modelling technique is presented for determining the time response of a system of bodies (rigid or...
The equations of motion for a multibody system are derived from a continuum mechanical point of view...
For dynamics of flexible multibody systems the deformation of the bodies is described by global assu...
The modelling of flexible elements in mechanical systems has been widely investigated through severa...
The objective of this research is the development of analytical and computational methods for analyz...
The trend to weight-optimization of complex structures and machines leads to problems like resonance...
The dynamic analysis of flexible multibody systems requires the combination of rigid body dynamics a...
The aim of this report is to analyze and compare two rotating beam examples, for which the incorpora...
Abstract. In this paper, a review of past and recent developments in the dynamics of flexible multib...
Two approaches are developed to analyze the dynamic behavior of flexible multibody systems. In the f...
For simulations of flexible multibody systems (MBS) the theory of elasticity and the Rayleigh-Ritz a...
Geometric, rotational or dynamic stiffening is a well and long known phenomenon in the analysis of f...
The dynamics of flexible space structures may be analyzed using finite element or multibody system c...
In this paper we discuss the issue of geometric stiffening as it arises in the context of multibody ...
In multibody system simulation for vehicle dynamics applications, it is often sufficient to consider...
A modelling technique is presented for determining the time response of a system of bodies (rigid or...
The equations of motion for a multibody system are derived from a continuum mechanical point of view...
For dynamics of flexible multibody systems the deformation of the bodies is described by global assu...
The modelling of flexible elements in mechanical systems has been widely investigated through severa...
The objective of this research is the development of analytical and computational methods for analyz...
The trend to weight-optimization of complex structures and machines leads to problems like resonance...
The dynamic analysis of flexible multibody systems requires the combination of rigid body dynamics a...
The aim of this report is to analyze and compare two rotating beam examples, for which the incorpora...
Abstract. In this paper, a review of past and recent developments in the dynamics of flexible multib...
Two approaches are developed to analyze the dynamic behavior of flexible multibody systems. In the f...