TITLE:
Evaluating Pavement Performance on Expansive Clay Soils Subjected to Cyclic Shrinkage and Swelling
AUTHORS:
Edem Chabi, Guy Oyéniran Adéoti, Marx Ferdinand Ahlinhan, Ludovic Metognissè Agassoussi
KEYWORDS:
Differential Soil Displacement, Expansive Soil, Pavement, Shear Strength, Shrinkage-Swelling Cycles, Soil Degradation Behaviour
JOURNAL NAME:
Open Journal of Applied Sciences,
Vol.15 No.1,
January
17,
2025
ABSTRACT: Expansive soils, prone to being influenced by the environmental conditions, undergo expansion when water is introduced and shrinkage upon drying. This persistent volumetric fluctuation can induce differential movements and result in cracking of structures erected upon them. The present research focuses on characterizing the behavior of pavements erected on expansive clays subjected to swelling and shrinkage cycles. Direct shear tests and oedometer tests were conducted in the laboratory on samples of expansive soils undergoing swelling-shrinkage cycles. The experimental data reveal a significant decrease in shear strength, evidenced by a reduction in shear parameters (internal friction angle, cohesion) and a decrease in the modulus of elasticity as the number of cycles increases. A numerical model based on the finite element method was developed to simulate the behavior of a pavement on an expansive clay substrate. The model results indicate an increase in total displacements with the increase in the number of shrinkage-swelling cycles, demonstrating a progressive degradation of the soil’s mechanical behavior. This study contributes to a better understanding of the complex phenomena governing the behavior of expansive soils and serves as a foundation for developing effective management and mitigation strategies for road infrastructures.