Geocells are three-dimensional honeycomb-like structures made of high-density polyethylene (HDPE) that are filled with soil, gravel, or other infill materials. When placed on soft soil, geocells provide a stable and reinforced foundation by confining and distributing the load over a wider area. The interconnected cells prevent lateral spreading of the infill material, increasing its shear strength and overall load-bearing capacity. This confinement effect reduces settlement and prevents soil deformation, making geocells an effective solution for enhancing load-bearing capacity on soft soil.
Geocells are engineered cellular confinement systems that help improve load-bearing capacity on soft soil by confining and stabilizing the soil particles within their interconnected cells. This confinement prevents lateral spreading of the soil and enhances its shear strength, ultimately distributing the load more evenly and minimizing settlement.
Geocells help improve load-bearing capacity on soft soil by confining and stabilizing the soil particles within their cell walls, creating a reinforced and structured layer. This confinement prevents lateral spreading and vertical settlement of the soil, increasing its stiffness and strength. The interconnected cells also distribute the applied load more evenly, reducing localized stress concentrations and preventing the formation of shear planes. Overall, geocells provide a cost-effective solution for enhancing the load-bearing capacity of soft soil, allowing for the construction of stable and durable foundations.