Geocells improve the stability of roadways by providing a strong and durable reinforcement system. These three-dimensional honeycomb-shaped structures, made from high-density polyethylene (HDPE), are filled with compacted materials such as soil, aggregate, or concrete. When installed on the subgrade of a roadway, geocells confine and reinforce the infill material, effectively increasing its load-bearing capacity and preventing lateral spreading or deformation. This confinement mechanism improves the overall stability, reduces settlement, and enhances the performance and longevity of roadways.
Geocells improve the stability of roadways by providing a strong and stable foundation. These cellular confinement systems are filled with compacted soil or aggregate, creating a rigid structure that distributes the load more evenly. This helps to prevent lateral spreading and deformation of the road surface, reducing rutting and potholes. Additionally, geocells enhance the resistance to erosion and lateral movement, resulting in improved longevity and durability of the roadways.
Geocells improve the stability of roadways by confining and reinforcing the fill material, preventing lateral movement and increasing load-bearing capacity. The interconnected cells create a rigid structure that distributes the load evenly, reducing deformation and improving overall stability.