The geocell is a deep, three-dimensional mesh structure, while the geogrid is usually two-dimensional. The way geocells fit together makes them look like honeycomb. Geogrids look like tight grids, which is what the name means. Before we get further into the article, we are among the best Geocell Suppliers and Geogrid Suppliers online.
What makes Geogrid and Geocells different?
Even though many geosynthetic products can be used to strengthen the ground, the most common ones are geocells and geogrids. Before you choose one, you should know how they are different and what they are best for.
Major Differences:
There are differences between geocells and geogrids in their shapes, how flexible they are, and how much weight they can support. Both can support the ground and a road, but geocells are better for soft subgrades than geogrids. Geogrids are used to build roads, driveways, and parking lots. They are also used to build retaining walls.
In this article, we’ll talk about how geocells and geogrids differ most critically. We’ll also discuss what they’re good for and when you shouldn’t use them. At the end of the article, we’ll also list the general steps you need to take to set up both products.
Geocells vs. Geogrids
Even though geocells and geogrids are both made of geosynthetic materials, their shapes, stiffness, and ability to hold weight differ. Read on to learn more about how the two are different.
Shape
The geocell is a deep, three-dimensional mesh structure, while the geogrid is usually two-dimensional. The way geocells fit together makes them look like honeycomb. Geogrids look like tight grids, which is what the name means.
Limitation and Stiffness On the Side:
Geogrids are more flexible than geocells because they are made in two dimensions. They can be used as a flexible top support or a separator. A geogrid structure is flatter and tighter than a geocell, making it harder to change than a geocell.
Capacity to Hold Weight
Geocells can hold more weight than other materials because of their 3D shape and vertical support. Over time, geocells are less likely to bend, buckle, or sink into the subgrade. Also, geocells can be filled with almost any kind of material. Because geogrids are primarily flat, the types of fill you can use with them are limited.
What Kinds of Uses Does Each Product Work Best For?
Geosynthetic products include geocells and geogrids. These are man-made materials that are used in civil engineering projects to stabilize slopes and soils prone to erosion.
Most of the time, these products are made from polymers and are used a lot in artificial earth-supported projects, systems, and structures that need to last a long time.
Geogrids and geocells are best for building structures that hold or support the earth, such as steep slopes and mechanically stabilized earth (MSE) retaining walls.
These structures must be strong, able to withstand pressure from above or below, and able to support other parts of the structure.
They’re used in building projects because:
- They have a remarkable ability to pull apart.
- are made to spread the load evenly over a large area.
- Cracking, spalling, corrosion, and splintering, common in traditional earth-retention projects, can be avoided to save money.
- Avoid using expensive methods like piling or over-digging on poor subgrades.
- Are easy to put in, unlike sand, gravel, and clay, which have to be moved with heavy equipment.
Applications Geocell are the best for For the best uses of Geocells, look at the list below.
- Plans for roads
- Soil is the base.
- Keep-back walls
- Slope stabilization
- Reinforcement for structural elements
- Draining and sifting
- Landfill and environmental barrier
This makes projects cheaper overall and helps the environment by keeping trash out of landfills.
Geogrids can strengthen shallow foundations by making them able to hold more weight. Both uniaxial and biaxial geogrids can stabilize the soil below a shallow foundation.
