Cellular Confinement System
Cellular Confinement System is one of the major methods of soil stabilization. This is one of the major breakthrough technologies of the engineering that resulted in one of the best way for all kind of stabilization process. It has huge impact on the erosion control, raindrop impact, loose soil granules and others. The typical cellular confine system is made of the “Ultrasonically Welded High Density Polyethylene” also known as HDPE in the industry. This is a great way to build road and railways on soft platform or soil.
Origin of Cellular Confinement System
The use of the confine system started with US Army in 1975. The Army Engineers were able to build road on soft grounds with this technique. However, the use and the technology were not in this form at that time. After many researches and experimentation, it has taken the form of Cellular Confinement System that is not only effective stabilization method but also immensely popular in the world.
How Cellular Confine System Works
This is substances that should be mixed with solid materials. It has the property to mix with the other material and change the property of it. However, for better results stress or load is applied. During construction, the Cellular Confinement System is mixed with the solid on the surface and load is applied on it. The load causes the lateral stresses on the cell perimeters and increases the coherence and resistance between the interface of the soil and cells. This increases the stability and rigidity of the soil by a large amount. Generally, both vertical and horizontal stresses are applied on the system that can be used for the stabilization process.
Benefits of the Cellular Confinement System
• The prime benefit of the system is the platform on which the road is constructed. In a wide area, when the load is distributed over a strong and stiff material, the stabilization index of the platform increases.
• With the load, soft soil or loose soil on terrain or wet ground tend to get run off. The loose nature of the soil decreases the stability of the road by considerable amount in short period. However, the Cellular Confinement System increases the stability and reduces the punching capability of the soft soil.
• When it comes to stability, tenacity and durability of a road, the load bearing capacity and the resistance play a major role. However, the normal stabilization process may not be able to give you the resistance that CCS can provide you. It changes the property of the material and gives immense resistance that in turn increases the capacity to bear more loads. This is very effective for the safety measures and also for the durability of the road.
• One of the most common problems with the road construction is deformation. However, the compact soil with CCS makes sure that the stabilization of the soil is at peak and the deformation is avoided.
Cellular Confinement System is one of the best engineering methods that has enhanced the durability, rigidity and stability of the roads.
Origin of Cellular Confinement System
The use of the confine system started with US Army in 1975. The Army Engineers were able to build road on soft grounds with this technique. However, the use and the technology were not in this form at that time. After many researches and experimentation, it has taken the form of Cellular Confinement System that is not only effective stabilization method but also immensely popular in the world.
How Cellular Confine System Works
This is substances that should be mixed with solid materials. It has the property to mix with the other material and change the property of it. However, for better results stress or load is applied. During construction, the Cellular Confinement System is mixed with the solid on the surface and load is applied on it. The load causes the lateral stresses on the cell perimeters and increases the coherence and resistance between the interface of the soil and cells. This increases the stability and rigidity of the soil by a large amount. Generally, both vertical and horizontal stresses are applied on the system that can be used for the stabilization process.
Benefits of the Cellular Confinement System
• The prime benefit of the system is the platform on which the road is constructed. In a wide area, when the load is distributed over a strong and stiff material, the stabilization index of the platform increases.
• With the load, soft soil or loose soil on terrain or wet ground tend to get run off. The loose nature of the soil decreases the stability of the road by considerable amount in short period. However, the Cellular Confinement System increases the stability and reduces the punching capability of the soft soil.
• When it comes to stability, tenacity and durability of a road, the load bearing capacity and the resistance play a major role. However, the normal stabilization process may not be able to give you the resistance that CCS can provide you. It changes the property of the material and gives immense resistance that in turn increases the capacity to bear more loads. This is very effective for the safety measures and also for the durability of the road.
• One of the most common problems with the road construction is deformation. However, the compact soil with CCS makes sure that the stabilization of the soil is at peak and the deformation is avoided.
Cellular Confinement System is one of the best engineering methods that has enhanced the durability, rigidity and stability of the roads.
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