Indoor Measurement of Contact Stress Distributions for a Slick Tyre at Low Speed

Indoor Measurement of Contact Stress Distributions for a Slick Tyre at Low Speed

The paper presents results of experimental research on tyre–road contact stress distributions, measured indoors for a motorsport slick tyre. The triaxial contact stress distributions have been measured using the complex transducer containing a transversal array of 30 sensing pins covering the entire...

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Bibliographic Details
Main Authors: Gabriel Anghelache, Raluca Moisescu
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Sensors
Subjects:
tyre–road contact patch
motorsport slick tyre
stress distributions
complex transducer
inflation pressure
vertical load
Online Access:https://www.mdpi.com/1424-8220/25/13/4193
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Summary:The paper presents results of experimental research on tyre–road contact stress distributions, measured indoors for a motorsport slick tyre. The triaxial contact stress distributions have been measured using the complex transducer containing a transversal array of 30 sensing pins covering the entire contact patch width. Wheel displacement in the longitudinal direction was measured using a rotary encoder. The parameters allocated for the experimental programme have included different values of tyre inflation pressure, vertical load, camber angle and toe angle. All measurements were performed at low longitudinal speed in free-rolling conditions. The influence of tyre functional parameters on the contact patch shape and size has been discussed. The stress distributions on each orthogonal direction are presented in multiple formats, such as 2D graphs in which the curves show the stresses measured by each sensing element versus contact length; surfaces with stress values plotted as vertical coordinates versus contact patch length and width; and colour maps for stress distributions and orientations of shear stress vectors. The effects of different parameter types and values on stress distributions have been emphasised and analysed. Furthermore, the magnitude and position of local extreme values for each stress distribution have been investigated with respect to the above-mentioned tyre functional parameters.
ISSN:1424-8220

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