Geocells improve the stability of rail embankments by providing a reinforced structure that reduces soil erosion, minimizes lateral movement, and increases load-bearing capacity. The interconnected cells of geocells confine and stabilize the soil, preventing it from spreading and settling. This reinforcement enhances the embankment's ability to withstand external forces, such as train vibrations and heavy loads, ensuring long-term stability and safety for rail infrastructure.
Geocells improve the stability of rail embankments by providing a reinforced structure that helps distribute the load more evenly, preventing soil erosion and settling. The three-dimensional honeycomb-like cells confine and stabilize the soil, increasing its shear strength and reducing lateral movement. This reinforcement helps prevent slope failures, landslides, and deformation of the embankment, ensuring a safer and more stable rail infrastructure.
Geocells improve the stability of rail embankments by providing a reinforced structure that helps distribute the load and prevent soil erosion. The three-dimensional honeycomb-like structure of geocells confines the soil, enhancing its shear strength and preventing lateral movement. This reinforcement reduces settlement and increases the overall stability of the embankment, ensuring the longevity and safety of the rail infrastructure.
