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June 6, 2024

Using Geocells for Pathways and Trails: A Practical Guide


Arpit Kushawaha


geocell for road construction


Geocells are an exciting part of technology that can deliver a variety of advantages for your operations. Whether you’re intended to stabilize soil, avoiding corrosion, or build a new texture for parking or sports areas, geocells have the possibility to do it all. Singhal Industries is a leading Geocell suppliers in India.

Keep reading to discover more about the extraordinary advantages of utilizing geocells.


What is a Geocell?

A geocell is a three-dimensional cellular layout that can be replenished with soil, gravel, or other fabrics to steadiness steep slants and avoiding corrosion. They are manufactured of high-density polyethylene (HDPE) and have an open cellular layout that enables them to imitate to the territory.

Geocells are a innovative method of walling off and restraining soil, combined, or other infill fabrics. These three-dimensional cellular layouts can be prolonged during fitting so that they construct adaptable walls with unified strips reinforcing tensile power while also avoiding movement by keeping everything in place through compression enhances due to environmental aspects like enduring.

When pressure is applied to the soil surrounded inside a geocell, as in a load support application, lateral strains are manufactured on the perimeter cell walls. The 3D zone of internment decreases soil particle cross mobility, but vertical loading on the restricted infill results in substantial lateral stress and confrontation at the cell-soil edge.

Geocell for road construction are used in layout to decrease erosion, steady soil, safeguard channels, and deliver structural consolidation for load support and earth retaining.

Categories of Geocells

Geocells are functional in different types and stipulations to solve different concerns with various soil categories. The best method to classify geocells is pricked and non-perforated geocells.

Perforated geocells have small holes in them that enable water and air to pass through. This category of geocell is ideal for applications where the soil requires to be able to respire, like in a green infrastructure task.

What’s more, the hole enhances load distribution and decrease distortion. They are manufactured up of a series of tiles that connect to construct cells. The power of the perforated strip and the weld decide the reliability of the geocell.

Non-perforated geocells have even, hard walls and are ideal for applications where water requires to be kept out, like in a landfill. The smooth walls avoid the penetration of water and help maintain the soil inside the cell.

Geomembranes and prefabricated vertical drains are rarely uses as application-specific choices to geocells.

The Advantages of Geocells

Infrastructure growth contains the design and construction of structures while assuring that they do not have a harmful effect on natural resources. Soil steadying and reinforcement are a major source of concern and a possible danger to the long-term constancy of roads, bridges, and pathways.

Engineers advantages from cellular confinement procedures in a diversity of ways including lower expenses, increased weight-bearing capability, and enhanced stability.

Safety and Stabilization of Steep Slope Surfaces

Geocell for slope protection are utilized to safeguard slopes from corrosion and help steady the texture. The cells conform to the terrain and build a three-dimensional wall that avoids soil elements from moving crosswise. This helps avoids landslides and maintain the slope steady.

In accumulation, geocells decrease the amount of fabrics required to steady a slope, which saves time and money. They can also be fitted rapidly and easily, without the requirement for heavy tools.

Geocell for road construction are largely utilized in road construction to avoid corrosion on steep grounds. In one task, a crew of four people was able to fit over 11,000 square meters of geo cellular strengthening in just two days.

Corrosion is not only a concern on steep slopes. It can also happen on flat surfaces, like roads and parking lots. In these cases, geocells can be utilized to build a textured surface that helps avoids the loss of fabrics due to wind and water corrosion.

Geocell for slope protection are frequently utilized in aggregation with other steadying methods, such as gabions, check dams, and retaining walls. When shared with these processes, geocells provides even exceptional stability and safety from erosion.

Shielding linings of channels and hydraulic layouts

Geocells are also utilized as safety linings for channels and other hydraulic structures. The cells form a three-dimensional wall that avoids soil elements from entering the waterway and instigating contamination. In addition, the cells help decreases the corrosion of the channel bed and sides. 

This enhances the life of the layout and helps maintain it in working order.

Channel linings manufactured with geocells are also less possible to choke, which can lead to submerging. The smooth wall of non-perforated geocells avoids dirt and debris from building up on the texture, while perforated geocells enables water to go through, eradicating any buildup that does happens. 

In short, geocells proposes many advantages that make them a perfect solution for slope steadying and safety from corrosion.


Static and vigorous load support on fragile subgrade soils

Geocell for slope protection are also utilized to benefit static and dynamic loads on lowest subgrade soils. The cells build a three-dimensional trellis that allocates the load over a larger area, which helps avoiding soil failure. In addition, the perforation in the strips enables water to go through, which helps keep the soil moist and avoids it from becoming compressed. 

This enhances the steadiness of the soil and decreases the threat of failure. Geocells are an effective method to enhance heavy weight on weak soils. In one project, they were able to enhance a load of up to 400 kilograms per square meter without producing any harm to the underlying soil.

The usage of geocells can help decrease expenses by avoiding expensive repairs or replacements of failed subgrade soils. In addition, they can be fitted rapidly and easily, without the requirement for heavy tools. Geocells are a multipurpose choice that can be utilized in various applications to steady slopes and helps loads on weak soils.

Strong Infrastructure

Geocells are largely used in civil engineering for road and pavement structure because they deliver a stretchy basis while maintaining the soil intact. They avoid most of the stress cracking that occurred in paved roads due to their enhanced load distribution competences. In addition, they help to maintain the surface level by adjusting to thermal expansion and contraction. This enhances the life of the pavement and decreases the requirements for repairs.

Geocells have also been utilized in airport runway structure because of their capacity to bear heavy loads without damage. The cells allocate weight evenly over a large region, which avoids cracking and enhances the lifespan of the runway.

Geocells delivers numerous advantages that make them a perfect solution for road and pavement construction. They are bendable, tough, and capable to bear heavy loads without damage. In adding, they help decreasing stress cracking and keep surface levels. Geocells have been utilized in airport runway construction with great success, making them a multipurpose option for many applications.

Frequently Asked Questions (FAQs)

Can you fill GeoCell with concrete?

GeoCell can be replenished with angular rock, concrete or with vegetated soil. The cells restrain the infill material, building a steady layer safeguarding the slope from corrosion.

What is the maximum slope for geocell?

The standard Geocell system for corrosion on is normally appropriate for utilize on slopes with an incline of up to 45 degrees (1:1 Slopes).

What is the compressive strength of Geocell?

Geocell utilizes 100% virgin HDPE resin, which has much improved values in strength, the seam peel strength is ≥14.2KN/m, and tensile strength is ≥22KN/m.



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