Affiliation:
1. Université de Sherbrooke, Canada
Abstract
<div>Continuous rubber track systems for farming applications are typically designed
using multiple iterations on full-scale physical prototypes which is costly and
time consuming. The development of numerical design tools could speed up the
design process and reduce development costs while improving product performance.
In this article, a rigid multibody dynamics (MBD) model of a continuous rubber
track system is presented. This article is the first part of a two-part study:
Part 1 focuses on the model description and part 2 describes the experimental
evaluation of the MBD model. The modeling methodology is based on a track
discretization as a set of rigid body elements interconnected by 6
degrees-of-freedom bushing joints. The mathematical formalism and experimental
characterization of all critical subsystems such as the roller wheels,
tensioner, suspensions, and contact models are also presented. Several
simulation results are presented to illustrate the capability of MBD models in
design activities to rapidly evaluate new concepts as a result of the relative
short-solving time of the model (approximately 3 h). The MBD model is shown to
be a powerful design tool to provide input boundary conditions for structural
analysis or as a design space explorer and optimization tool.</div>
Subject
General Health Professions
Cited by
1 articles.
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