Geocells improve load-bearing on weak subgrades by confining and stabilizing the soil, creating a stronger and more stable foundation. The three-dimensional honeycomb-like structure of geocells helps distribute the load evenly, reducing stress on the subgrade and preventing soil displacement. Additionally, filling the geocells with granular materials further enhances load-bearing capacity, allowing for the construction of roads, embankments, and other structures on weak subgrades with improved stability and durability.
Geocells improve load-bearing on weak subgrades by confining and stabilizing the soil, creating a stronger and more stable foundation. The cellular structure of geocells acts as a reinforcement system, distributing and transferring the load across a wider area, reducing stress concentration, and preventing soil displacement. This increases the overall bearing capacity of the subgrade, allowing it to support heavier loads without deformation or failure.
Geocells improve load-bearing on weak subgrades by confining and stabilizing the soil, creating a reinforced structure that distributes the load more effectively. The interconnected cells provide lateral support, preventing lateral spreading of the soil particles and increasing their shear strength. This confinement reduces the deformation of the subgrade, enhancing its load-bearing capacity and preventing settlement.
