Chain vibration and dynamic stress in three-dimensional multibody tracked vehicles

M. Campanelli, A. A. Shabana, J. H. Choi

Research output: Contribution to journalArticlepeer-review

21 Citations (Scopus)

Abstract

A three-dimensional computational finite element procedure for the vibration and dynamic stress analysis of the track link chains of off-road vehicles is presented in this paper. The numerical procedure developed in this investigation integrates classical constrained multibody dynamics methods with finite element capabilities. The nonlinear equations of motion of the three-dimensional tracked vehicle model in which the track links are considered as flexible bodies, are obtained using the floating frame of reference formulation. Three-dimensional contact force models are used to describe the interaction of the track chain links with the vehicle components and the ground. The dynamic equations of motion are first presented in terms of a coupled set of reference and elastic coordinates of the track links. Assuming that the structural flexibility of the track links does not have a significant effect on their overall rigid body motion as well as the vehicle dynamics, a partially linearized set of differential equations of motion of the track links is obtained. The equations associated with the rigid body motion are used to predict the generalized contact, inertia, and constraint forces associated with the deformation degrees of freedom of the track links. These forces are introduced to the track link flexibility equations which are used to calculate the deformations of the links resulting from the vehicle motion. A detailed three-dimensional finite element model of the track link is developed and utilized to predict the natural frequencies and mode shapes. The terms that represent the rigid body inertia, centrifugal and Coriolis forces in the equations of motion associated with the elastic coordinates of the track link are described in detail. A computational procedure for determining the generalized constraint forces associated with the elastic coordinates of the deformable chain links is presented. The finite element model is then used to determine the deformations of the track links resulting from the contact, inertia, and constraint forces. The results of the dynamic stress analysis of the track links are presented and the differences between these results and the results obtained by using the static stress analysis are demonstrated.

Original languageEnglish
Pages (from-to)277-316
Number of pages40
JournalMultibody System Dynamics
Volume2
Issue number3
DOIs
Publication statusPublished - 1998

Bibliographical note

Funding Information:
This research was supported by the U.S. Army Research Office, Research Triangle Park, NC.

Keywords

  • Dynamic stress analysis
  • Flexible multibody equations of motion
  • Floating frame of reference
  • Linear theory of elasto-dynamics
  • Three-dimensional finite element analysis
  • Tracked vehicle dynamics
  • Velocity transformation technique

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