Effect of aged material properties on transverse crack performance with two-round field observations

• Published in: Road materials and pavement design Vol. 25; no. 5; pp. 1037 - 1053
• Main Authors: Luan, Yingcheng, Zhang, Weiguang, Shen, Shihui, Wu, Shenghua, Ma, Tao, Zhou, Xingye, Mohammad, Louay N., Fu, Yuan
• Format: Journal Article
• Language: English
• Published: Abingdon Taylor & Francis 03.05.2024; Lavoisier
• Subjects: Aging (materials); aging effect; climatic condition; Design factors; Finite element method; Low temperature; Material properties; material property; pavement structure; Pavements; Tensile strength; Thermal cracking; Thermal resistance; Thermal stress; Three dimensional models
• ISSN: 1468-0629; 2164-7402
• DOI: 10.1080/14680629.2023.2230323

This paper is aimed to validate the trend between thermal-related parameters and field-measured thermal cracking. Field thermal cracking is collected from four projects with twelve pavement sections. The material properties include creep compliance m-value and tensile strength of mixture, and asphalt low-temperature performance grade (PG). A lower value of m-value and tensile strength leads to a higher thermal cracking, while the low-temperature PG has the contrary trend. One or even several material properties cannot fully characterize field thermal cracking for all projects. Then the change of material properties, pavement structures, and climatic conditions are considered in three-dimensional finite element models (FEM). The aging effect of material properties attributes to the increase of thermal stress. The placement of chip seal could greatly reduce the aging rate, and the thicker pavement result in less thermal stress. Both material property and thickness are important design factors for thermal cracking resistance.