Geocell Soil Stabiliser
Through a honeycomb-like network, geocells confine and stabilize soils that would otherwise be unstable under loading. They provide a quick, economical and eco-friendly solution for construction of unpaved roads and retaining walls, slope stability, and erosion control.
Almost 80% of roads worldwide are built on soft soil such as expansive clay, peat bogs, or sand. Without the right technology, these roads will crumble, threatening safety and longevity.
Benefits
Geocells are a cost-effective solution for soil stabilization. They can be used to support retaining walls, stabilize slopes, and reinforce stormwater channels. Using a honeycomb-like structure, 3D geocells confine and stabilize materials that would otherwise be unstable under loading. They can also help prevent erosion. Erosion is common on steep sloped grounds, and can damage the environment and cause a safety risk for people and animals. Geocells are an effective solution for erosion control because they make the soil stronger. They are made up of cells that can be filled with soil, gravel, or concrete. When they are placed in the ground, they hold the filler in place, which prevents it from moving around and reduces the chance of erosion.
Geocellular confinement systems can also be used to improve the strength and durability of paved roads. They can reduce the amount of aggregate required and increase construction efficiency. They can also prevent stress cracking in paved roads and provide stability for slopes.
Geocells are environmentally friendly, as they do not require heavy machinery or other expensive materials. They can be made from locally available materials, which helps to reduce your carbon footprint. They are also easy to transport, which saves logistics costs. They also do not require substantial quarrying, which protects the surrounding environment and preserves the natural beauty of the area.
Installation
Before the installation process begins, it’s important to prepare the area. This includes removing any vegetation and clearing the ground of any rocks or debris that could hinder the process. It’s also vital to make sure that all required materials are available. This can help speed up the project and ensure a more efficient outcome.
Once the soil is ready, it’s Soil Stabiliser Geocell time to begin the process of installing the geocell cellular confinement system. Start by placing a layer of geotextile on the soil, then place the geocells over it. If the job requires tendons, prepare them in accordance with the job specifications.
Next, add the fill material that will be placed inside the geocells. This can be soil, gravel, or any other type of material. Each cell impedes the lateral movement of the fill material, which increases stability. It’s important to use a quality filler that is well-compacted.
The cells of the geocell grid have a honeycomb-like structure that keeps the infill material together and provides stability. This makes them an excellent choice for slope stabilization, retaining walls, and road construction. They can also be used for soil reinforcement, which improves the bearing capacity of soft soils. This is beneficial for structures like railroads, which see heavy traffic loads that can cause damage if the subgrade is not reinforced properly.
Maintenance
Soil stabilization is any process that physically, chemically, or biologically modifies a natural soil for engineering purposes. In most cases, the soil is modified to make it more durable so that it can support structures like roads, railways, and footpaths. Geocells are an effective solution to many of these problems.
They can significantly improve the bearing capacity of soft soils and increase the strength of pavements and roads. They can also help reduce the cost of road construction because they require less thickness of inbound aggregate layers. In addition, they prevent cracking and maintain structural stability for a longer period of time.
The cellular confinement system of the Geocell Solutions is made up of revolutionary polymer strips that are interconnected to form a 3D honeycomb matrice that stabilizes the soil and enhances drainage. This is a newer technology that has been developed over the last couple of decades and is becoming increasingly popular for use in civil engineering projects.
The cellular confinement of the geocells is ideal for supporting heavy loads on weak subgrade soils. The cells have been proven to be Biaxial PP Plastic Geogrid able to support a load of up to 400 kilograms per square meter without damaging the underlying soil. The geocells also offer enhanced slope protection. This is especially important for structures such as railroads, which must withstand high traffic volumes.
Applications
Geocells are used to stabilize slopes and support loads on weak soils. They work by forming a honeycomb-like network that confines soil particles and prevents them from moving around. They are also an effective method for erosion control and preventing geohazards.
Unlike other erosion control methods, geocells do not require frequent maintenance or replacement. They are durable, long-lasting, and easy to install. They can also be reused, saving you money and reducing your environmental footprint. They are also highly effective in preventing erosion on sloped grounds. They do this by containing the soil and keeping it from being eroded by heavy traffic or environmental factors like weather.
The perforations in the strips pass water to flow through, helping keep the soil moist and preventing it from becoming compacted. This increases the stability of the soil and decreases the chance of failure.
Another benefit of using geocells is that they are able to increase the lifespan of unpaved roads and bridges. This is because they are a cost-effective and sustainable way to build road surfaces. They also help reduce the amount of materials needed for construction, allowing them to be constructed faster and more efficiently. They are also ideal for use as retaining walls or in construction projects that require a lot of slopes. They can be filled with a variety of materials, including rocks and vegetation, to provide additional structural strength.