Calibration of force sensor mounted in tire tread block under rolling contact condition

Calibration of force sensor mounted in tire tread block under rolling contact condition

This study investigates a sensor calibration method for accurately measuring the three-axis contact forces of a single tread block using sensor-equipped tires. Two calibration methods were examined: a static method based on forces generated by applying three-axis displacements, and a dynamic method...

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Bibliographic Details
Main Authors: Koga Ishido, Masami Matsubara, Takayuki Toyoshima, Tomonori Sakai, Akira Shibuya, Hiroshi Tachiya, Masahiro Higuchi
Format: Article
Language:English
Published: Elsevier 2025-08-01
Series:Polymer Testing
Subjects:
Tread rubber
Tread block
Three-axis sensor
Contact force
Tire belt
Online Access:http://www.sciencedirect.com/science/article/pii/S0142941825001734
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Summary:This study investigates a sensor calibration method for accurately measuring the three-axis contact forces of a single tread block using sensor-equipped tires. Two calibration methods were examined: a static method based on forces generated by applying three-axis displacements, and a dynamic method using rolling contact. Significant errors were observed in the static method when road surface sensors were used as reference values during tire rotation. In contrast, the dynamic method showed minimal speed dependency but was influenced by the slip angle and inflation pressure. It was confirmed that the accurate reproduction of three-axis contact forces from tire sensors is possible if calibration coefficients corresponding to the slip angle and inflation pressure are available. Several methods have been proposed previously to measure the contact force of the entire tire by attaching sensors inside the tire; however, the method proposed in this study can measure the triaxial load acting on a single tread block, which is particularly useful for designing the tread pattern in the contact patch and is unique from previous studies. Considering the conditions commonly used in general tire tests, it will be necessary in the future to establish calibration coefficients that consider the slip angle, tire inflation pressure, and speed; in addition, the validity of linear interpolation should be examined.
ISSN:1873-2348

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