Geocells reduce soil settlement by confining and stabilizing the soil particles, preventing excessive lateral movement and vertical displacement, thereby enhancing the overall load-bearing capacity of the soil. The cellular structure of geocells provides lateral support, distributes loads more evenly, and restricts soil particles from shifting, which ultimately minimizes settlement.
Geocells reduce soil settlement by providing a stable platform for soil particles to interlock and resist displacement. The three-dimensional honeycomb structure of geocells helps distribute loads evenly, increasing the load-bearing capacity of the soil and preventing excessive settlement. Additionally, geocells confine soil particles, limiting their lateral movement and enhancing overall stability, which ultimately reduces soil settlement.
Geocells reduce soil settlement by confining and stabilizing the soil particles within their interconnected cellular structure, thereby increasing the overall load-bearing capacity of the soil. This confinement prevents lateral spreading and vertical displacement of the soil, reducing settlement and improving the overall stability of the ground.