Enhanced Tire Blowout Modeling Using Vertical Load Redistribution and Self-Alignment Torque

Author:

Li Ao1,Chen Yan2,Du Xinyu3,Lin Wen-Chiao3

Affiliation:

1. School for Engineering of Matter, Transport and Energy, Arizona State University, 7442 E Tillman Avenue, SIM 140, Mesa, AZ 85212

2. The Polytechnic School, Arizona State University, 7171 E. Sonoran Arroyo Mall, PRLTA 330M, Mesa, AZ 85212

3. General Motors Global R&D, Warren, MI 48092

Abstract

Abstract Tire blowout impacts vehicle stability and creates challenges to vehicle control. To accurately evaluate the impact of tire blowout in different driving scenarios, a new tire blowout model is developed in this work with explicit considerations of the tire vertical load redistribution and self-alignment torque (SAT). A two-stage vertical force redistribution model is employed for the vertical load variations instead of the one-stage model in the literature. Moreover, the SAT is formulated, and the impact on the steering system is investigated. The developed tire blowout model is validated through both simulation and experiment using a scaled test vehicle. The results indicate that the proposed tire blowout model can evaluate the tire blowout impacts on vehicle dynamics more accurately, which will benefit the evaluation of tire blowout impact and the future development on model-based fault tolerant control.

Publisher

ASME International

Reference22 articles.

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2. Nonlinear Coordinated Motion Control of Road Vehicles After a Tire Blowout;Wang;IEEE Trans. Control Syst. Technol.,2016

3. Modeling Tire Blow-Out in Roadside Hardware Simulations Using LS-DYNA;Orengo,2003

4. A Novel Integrated Approach for Path Following and Directional Stability Control of Road Vehicles After a Tire Blow-out;Wang;Mech. Syst. Signal Processing,2017

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2. Dynamic characteristics of ISRFT blowout considering camber angle under typical driving conditions;Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering;2023-12-29

3. Three-Dimensional In-Depth Dynamic Analysis of a Ground Vehicle Experiencing a Tire Blowout;SAE International Journal of Vehicle Dynamics, Stability, and NVH;2023-08-31

4. A Novel Trust-Based Shared Steering Control for Automated Vehicles with Tire Blowout;2023 American Control Conference (ACC);2023-05-31

5. Study on the Self-Aligning Torque of BMW and Chevrolet During Driving and Its Influence on Vehicle Dynamic Performance;Highlights in Science, Engineering and Technology;2023-03-18

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