Cart Total Items (0)

Cart

Fiberglass Geogrid

The warp-knitted glass fiber geogrid is made of glass fiber by weaving and coating. It has high longitudinal and lateral tensile strength, low elongation, and high tensile modulus.

Warp-knitted fibreglass geogrids can be used in engineering fields such as road and airport pavement, water conservancy dam surface layer reinforcement, and more.

Category:

What is Fiberglass Geogrid ?

The warp-knitted glass fiber geogrid is made of glass fiber by weaving and coating. The warp-knitted glass fiber geogrid has high longitudinal and lateral tensile strength, low elongation, and high tensile modulus.
Warp-knitted fiberglass geogrid can be used in engineering fields such as road and airport pavement, water conservancy dam surface layer reinforcement, etc.

Applications

  • Railways, Highways, Soft soil foundations
  • Airport runways, Car parks, Embankments
  • Construction haulage roads, Patios, Farm tracks

Testing Standard

  • GRI GM 6/9/11/13/14/19
  • ASTM D792/D1004/D1238/D1505/D1603/D3895
  • ASTM D4218/D4833/D5199/D5397/D5596

Technical Specification

Width: 1-6 m, Material: High-quality HDPE/PP. Price from $0.5 SQM

Fiberglass Geogrid
Item Tensile Strength (≥) KN/MNomianal ElogationWidth of mesh
GSB30-3030≤1012.7-25.4 mm
GSB40-4040≤1012.7-25.4 mm
GSB50-5050≤1012.7-25.4 mm
GSB80-8080≤1012.7-25.4 mm
GSB100-100100≤1012.7-25.4 mm
GSB125-125125≤1012.7-25.4 mm
GSB150-150150≤1012.7-25.4 mm
The longitudinal and transverse tensile strength are the same.

How does biaxial geogrid work?

If the soil in the area where you will be adding a dense load (such as slabs, railway sleepers, trucks or lorries) is too soft, the pressure will force the soil to warp. A Geogrid will help to secure the soil through compacting the aggregate which furthermore enhances the bearing capacity of the underlying ground. In short, it strengthens the ground and stops it from disappearing in heavy traffic, preventing rutting – etc.

Unlike when the load is introduced to the soil alone, the geogrid forces the heavy load’s pressure to be spread over the entire surface area of the grid, due to the subgrade having strength in both directions. It’s a similar reason to why, if you were walking on thin ice, you are better off laying down to spread your body weight over a larger surface, it’s the same principle here.

This essentially means once the Biaxial geogrid is set out and the heavy load is put in place the soil beneath the grid compacts and the subrade’s strength is further enhanced. This means that it is very cost effective by saving both labour and maintenance expenses. 

Works really well for farm tracks etc or country lanes that lorries drive up and down. It helps to stop the ruts caused by the weight on the tyres which otherwise would need regularly refilling.

Latest Project

School geomembrane barrier

Feasibility Assessments: Conducting comprehensive studies to evaluate
the viability of hydropower projects based on water resources, terrain,

View Details

Landfill Industry

Feasibility Assessments: Conducting comprehensive studies to evaluate
the viability of hydropower projects based on water resources, terrain,

View Details

Mining industry

Feasibility Assessments: Conducting comprehensive studies to evaluate
the viability of hydropower projects based on water resources, terrain,

View Details

Request Info or Get a Quote

We welcome the opportunity to work with you on your next infrastructure project. Send us a message, and our team will get back to you promptly.