Scientific Development Research

Expanding soil exhibits inherent dry shrinkage cracks during dehydration due to its unique properties, which significantly compromise engineering stability. This study investigates the mechanism of crack inhibition in expanding soil modified with waste tire rubber particles. Through comprehensive experiments and analysis, the effects of rubber particles on soil characteristics were elucidated. The research demonstrates that rubber particles effectively alter the microstructure of expanding soil, thereby reducing its shrinkage tendency. Specifically, their incorporation decreases inter-particle interactions, inhibiting crack formation and propagation. The particles excellent elastic deformation coordination enhances soil resilience. Results indicate that appropriate rubber particle dosage significantly improves expanding soils resistance to dry shrinkage cracks, providing a novel solution for engineering challenges in expanding soil applications while opening new avenues for waste tire recycling.

Waste tire rubber particles; Expanding soil; Dry shrinkage cracks; Inhibition mechanism; Microstructure