Geocell As a Soil Stabiliser
A geocell is a three-dimensional cellular structure that can be repleted with soil, gravel, and other materials to stabilize steep slopes and avert erosion. These structures are made of high-density polyethylene and can be expanded at the time of installation to conform to the terrain.
Cellular confinement improves the settlement of soft subgrades and enhances shear strength and load-bearing capacity. It also reduces lateral displacement of soil particles and prevents landslides.
Cost-Effective
When it comes to soil stabilization, there are a variety of options available. Some require expensive machines, while others are chemical-based and can damage the environment. Cellular confinement systems, such as geocells, are an environmentally friendly and cost-effective solution for preventing erosion.
The cells in geocells conform to the Soil Stabiliser Geocell terrain and build a three-dimensional wall that prevents soil particles from moving laterally. This helps protect slopes from landslides and keeps them stable. They can also be used to protect embankments and reduce the risk of failure.
They also help reduce the amount of material that is needed to stabilize slopes. In one project, a crew of four was able to install 11,000 square meters of geocell in just two days. This makes them an ideal choice for projects with tight timelines and limited access to equipment.
Unlike other soil stabilization products, geocells are made from an environmentally friendly plastic that doesn’t require any chemicals or heavy machinery to install. This minimizes environmental damage and saves time and money for the construction company.
Rather than mixing enzyme-based stabilization products into the pre-existing soil, geocells lock the soil particles inside a honeycomb grid. This allows vehicle weight to distribute evenly and helps prevent potholing, flooding, and other issues on dirt roads. It also promotes natural drainage and groundwater recharge.
Environmentally Friendly
The three-dimensional structure of a geocell cellular confinement system allows it to confine and stabilize loose soils. This increases their load-bearing capacity, reduces the effects of shrink/swell and freeze/thaw cycles, and provides support to prevent erosion of the infill material. These properties make them an ideal choice for construction and environmental projects with soft soils, where conventional methods are less effective.
The perforations on the walls of a geocell allow water to pass through, which prevents the soil from becoming compacted and helps to keep the area moist. This can also help to avoid the emergence of weeds in vegetated areas.
Erosion is a serious problem in many natural and constructed environments, especially on steep slopes. It can cause damage to infrastructure and create dangerous situations for people, which is why it’s important to take steps to prevent erosion. Geocells are one of the best ways to do this.
Cellular confinement systems use polymer strips in a honeycomb configuration to secure rocks, soil, gravel, sand, or concrete and prevent erosion of the infill material. They’re often used in unpaved roads and retaining walls, erosion control on steep slopes, and protective linings for channels and water ponds.
They can be installed quickly and easily, which saves time and money on labor costs. They’re also environmentally friendly, as they can be made from locally-sourced materials that don’t require extensive quarrying and transport.
Easy to Install
Geocells are a simple way to stabilize soil. They work by preventing erosion by confining and strengthening infill materials. They also increase the load capacity of roads and foundations by dispersing weight. This makes them a great choice for road construction projects in soft subgrades.
In addition, geocells are an excellent choice for slope protection and retaining walls. They are effective at preventing erosion on steep slopes by keeping soil particles from moving laterally and making the slope stable. They can also be used to reinforce channels and water pond linings.
Unlike other methods of stabilizing soil, geocells provide long-term results. They are easy to install and can be made from a variety of materials. They are also versatile and can be customized to fit any project. They are available in different sizes, including a range of depths and widths. They are also lightweight and can be moved from location to location without any damage.
Once the geocells are expanded, they can be filled with soil, stone, or other material. Once the material is inserted, it should be compacted with a drag or roller. This will help ensure that the soil is not too loose or too compact. If the filler is too loose, it may be easily washed away or eroded by heavy traffic or extreme weather conditions.
Long-Lasting
When a geocell is used in a project that involves stabilizing soil, it creates a 3-D grid that helps distribute the load. This lessens the likelihood of failure by reducing the pressure on individual cells. The perforations on the strips also allow water to flow through, which maintains soil moisture and prevents it from becoming compacted. These factors boost stability and increase the lifespan of your project.
They can also be used to entail erosion and stabilize slopes, Biaxial PP Plastic Geogrid ensuring that the soil stays in place. These structures are made from eco-friendly HDPE, making them an effective choice for any type of construction.
The 3D zone of confinement curtails soil particle lateral mobility, which is important for preventing soil degradation on steep slope surfaces. In addition, they help reduce vertical differential settlement into soft subgrades and enhance shear strength and load-bearing capacity.
Geocells are also used in projects that require drainage, as they support efficient waterflow. They encourage the use of local infill materials, which cuts down on the cost and environmental footprint of a project.
For example, they are employed as protective linings for channels and other hydromechanical structures. The cells conserve soil particles from entering the waterway and causing pollution, and they also diminish the erosion of the channel bed and sides. This prolongs the life of the structure and enables it to function at full potential.