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Research paradigms and scales of asphalt pavement skid resistance evaluation: A review

Zihang Weng, Chenglong Liu, Yuchuan Du, Zhen Leng, Difei Wu, Bryan T. Adey

2025Friction10 citationsDOIOpen Access PDF

Abstract

Understanding the tire-road friction system is fundamental for evaluating skid resistance on asphalt pavements. Literature analysis reveals that the trajectory of tire-road friction research aligns with the evolution of scientific research paradigms: experimental science, theoretical science, computational science, and data science. Research in this field can be categorized into three scales: the rubber-pavement, the tire-road, and the vehicle scale. Experimental observations have yielded numerous patterns and empirical models, which serve as the foundation of this research field. Although numerical measurement devices have been applied for decades, the reproducibility and comparability of the results require further improvement. Tire-road friction theory and simulations have been well developed across the three scales, but these scales remain largely independent and unconnected. With the advancement of sensing technology, texture features have been widely exploited and used as inputs for various machine-learning models to estimate pavement skid resistance. However, these models are limited in their integration of friction mechanisms, resulting in relatively low interpretability. In summary, the synergistic development of the four research paradigms can mutually promote and advance the understanding and application of tire-road friction mechanisms. The paper concludes with a discussion of current challenges and future trends, drawing implications for further research in this field.

Topics & Concepts

Skid (aerodynamics)Asphalt pavementAsphaltEngineeringForensic engineeringGeotechnical engineeringCivil engineeringMaterials scienceComposite materialStructural engineeringAsphalt Pavement Performance EvaluationInfrastructure Maintenance and Monitoring