Three-dimensional formulation of rigid-flexible multibody systems with flexible beam elements

The work presented in this paper is based on an existing comprehensive formulation for rotating #exible systems. In the existing formulation the #exible degrees of freedom (d.o.f.) are represented by an analytically computed modal basis and the coupling matrices between the rigid-and the #exible-bod

A general ÿnite element formulation is presented for dynamic analysis of spatial elastic beams, for small strains, in a multi-body conÿguration. The tangent maps associated to the ÿnite rotation vector are used to compute the tangent matrices used to integrate implicitly the equations of motion in d

A new finite element beam formulation for modelling flexible multibody systems undergoing large rigidbody motion and large deflections is developed. In this formulation, the motion of the 'nodes' is referred to a global inertial reference frame. Only Cartesian position co-ordinates are used as degre

This paper addresses the problem of end-point trajectory tracking in flexible multibody systems through the use of inverse dynamics. A global Lagrangian approach is employed in formulating the system equations of motion, and an iterative procedure is proposed to achieve end-point trajectory tracking