Evaluation of drastic temperature change on temperature stress of asphalt mixture during microwave deicing

Abstract

Microwave deicing is an efficient and environment-friendly technology for asphalt pavement. Previous studies have shown that silicon carbide can improve the deicing efficiency of pavement, but the influence of drastic temperature change during microwave deicing on the temperature stress and temperature fatigue life is undefined. In this study, the temperature stress during heating and cooling were analysed by numerical simulation, and the mechanism of stress change was discussed. Finally, the temperature fatigue performance of pavement was evaluated. The simulation results showed that an increase in the temperature rising rate did not necessarily increase the temperature stress, and there was no stress accumulation after microwave deicing. The temperature stress was affected by both the temperature change rate and the heat transfer performance, and good heat transfer performance of asphalt mixture could reduce the temperature stress. Besides, the drastic temperature change did not necessarily reduce the temperature fatigue life of pavement.

KEYWORDS:

• Asphalt mixture containing silicon carbide aggregate
• temperature change rate
• temperature stress and strain
• temperature fatigue life
• microwave heating

Acknowledgements

The authors are grateful for technical support from the High Performance Computing Center of Central South University and thank Yecheng Fan from Shiyanjia Lab (www.shiyanjia.com) for the electromagnetic parameters of SiC analysis.

Disclosure statement

No potential conflict of interest was reported by the author(s).

Additional information

Funding

This work was supported by National Natural Science Foundation of China: [Grant Number 52078499]; Natural Science Foundation of Hunan Province: [Grant Number 2022JJ30730]; Science and Technology Program of Hunan Province: [Grant Number No. 202246].