Development of truck tire-terrain finite element analysis models.
Date
2013-12-01
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
Heavy vehicles require tires which can withstand extreme loads while maintaining control,
delivering performance and minimizing fuel consumption, particularly on soft soils. Recent
advances in finite element analysis and computational efficiency have opened doors to highperformance,
highly complex simulations which were not possible just a few years ago.
This research aims to model two tires using non-linear finite element analysis code and validate
them using static and dynamic tests, including response to steering input. Soils are modeled
using both traditionally-meshed FEA techniques as well as a newer mesh-less smoothed particle hydrodynamics method. Soils are validated and the accuracy of the SPH and FEA models are
compared. The tires and soils are used together to estimate the rolling resistance of the tire over
various terrains.
The developed soil models are sufficient to model soils behaving like clay. The SPH soil models
behave closer to actual soils, providing superior penetration and shear properties. This causes the
SPH soil models to exhibit rolling resistance closer to experimental data.
Description
Keywords
FEA, SPH, Tires, Soils, Rolling resistance