We know how hard it is to keep your gravel driveway or your dirt parking pad in good shape. The surface can move when it floods or when it is used too much. Our team at Performance Footing has come up with the best Geocell Base-Core to help you with this. What are Geocells, though? Before we get into that, we are well-known Geocell Suppliers as well as Geogrid Suppliers online. 

Now You Can Buy Geocells:

Geocells are cellular confinement systems that were made as an easy and long-lasting way to protect and stabilize. Cellular confinement systems work well to keep the soil packed down, which makes the structure of both the infill and the pavement stronger.

The honeycomb-like shape of the cells makes the Geocell strong and long-lasting. This format makes a structure that makes it easier to spread out the load.

High-density polyethylene (HDPE), which is what the cell is made of, is used to make weak or unstable soil more stable. This is because they can stop soil particles from moving side to side while putting weight on the infill from above.

How Can Material Be More Stable:

In addition to making materials more stable, Geocells give them a mattress-like feel and make them more flexible. Because the cells are very stiff and have a high tensile strength, they help spread the weight of the product more evenly.

Because the cells spread out the weight, the surface materials above are less likely to get ruts. This also cuts down on how much granular infill is needed. The design of the cells makes it possible for the infills to be brought in from nearby, which also means that marginal soil can be used for infill.

Final Word:

Lastly, Geocells make the asphalt layers better, which has many positive effects. The first benefit is that you can use less asphalt because the cells last longer than regular asphalt. Second, Geocells improve the modules of layers next to them by transferring vertical forces to the grid of geocells through passive resistance. By being able to use Geocells, users can save a lot of money on the base and subbase layers, which directly affects the cost and maintenance of the road.

How Geocells Came to Be:

In the late 1970s and early 1980s, engineers made Geocells to protect and stabilize different kinds of the ground around the world. When Geocells were first made, they were used in ways that are very different from what we see today. At first, it was mostly used to stabilize sand roads so that military vehicles could be moved on them.

The first Geoells were mostly made from recycled materials like waxed craft paper, plastic drainage pipes, and staples. Geocells were quickly made better because they were needed right away in places like the Middle East when the U.S. military started working in war zones.

Some Further History:

Later, the U.S. Army got in touch with Presto Products, a company that makes plastics. Together, they made a grid that was much stronger and could hold even more weight for use in the military. In Florida, the first Geocells were tested by making sand roads with them. The newer cells were tested by driving a lot of vehicles over their makeshift road. Even though there were many military-grade vehicles, the cells didn’t seem to be in trouble.

But this didn’t make it less important to improve the cells. Slowly, the product got better as more and more people wanted to use Geocells, mostly for bigger projects and less for everyday use. Since the 1980s, Geocells have become very popular in many fields outside of the military because of how well they are made.

How Geocells Are Used

Geocells are very useful because they can expand, which makes it possible to pack things inside of them. This expansion makes a free-draining system that still stops mass movements that can’t be stopped by other building materials or methods.


Geocells can be used for many different things because of how well they are made. One of the main uses is to keep buildings safe. For example, big companies use the cells as protective linings for hydraulic structures and other types of industrial equipment.

The cells can also be used to protect and stabilize surfaces on steep slopes. In mountainous areas, geocells are used to stabilize the ground and make roads stronger and last longer.

An Avalanche Protection System in Iceland is a great example of this. The original plan was to build a concrete wall to hold back the snow, but they ended up building several Geoweb barriers instead to protect the city from avalanches.


Geocells can also be used to improve the support of static and moving loads on weak subgrade-level soils. The Geoweb in Britain is an example of this. The very soft sand that was used near the city of Kent would move. This was a great use for the Geocell because it was used to both keep the ground stable and build strong roads.


They are also used to make multi-layered structures that keep water and earth in place. A retaining wall in Korea is a good example of this. Its main goal was to stop erosion in cities near the wall, which is caused by bad weather.


Today, Geocell can be used as a cheap and useful stabilizer for your home. Whether your parking spot is always getting flooded or you want to make your driveway more stable, Performance Footing has what you need. Our Geocells will make your surfaces better and protect them from damage down the road.

By Anurag Rathod

Anurag Rathod is an Editor of, who is passionate for app-based startup solutions and on-demand business ideas. He believes in spreading tech trends. He is an avid reader and loves thinking out of the box to promote new technologies.