Triaxial geogrid is a unique type of geogrid. This product is made from high-density polyethylene. Triaxial geogrid has a stable triangular structure. Based on the stable triangle form, its multi-directional structure is an innovation. This triangular structure can provide an enhanced bearing system, which can reduce the thickness of layers. For example, the application of triaxial geogrid in asphalt pavement can greatly reduces the layer of asphalt.

Triaxial geogrid has good creep resistance and high tensile strength. It can greatly improve pavement performance and extend the service life of ground. Compared with uniaxial geogrid and biaxial geogrid, triaxial geogrid has higher in-plane stiffness and better bearing capacity.

This product has a high efficiency in distributing loads. It can effectively prevent the ground from rutting, cracking and subsiding. Triaxial geogrid provides a cost effective solution for geotechnical engineering. It performs well in the reinforcement of soft soil, roadbed, subgrade and retaining wall.

Hexagonal triaxial geogrid has good bearing capacity and excellent in-plane stiffness.

Quadrangular triaxial geogrid has long term structural stability.

Triaxial geogrid is suitable for various soil conditions.

Triaxial geogrid is extensively applied in soil stabilization and base reinforcement.

Triaxial geogrid Specifications:

• Material: polyethylene yarn.

• Rib section shape: rectangular.

• Aperture shape: triangular.

• Triaxial geogrid shape: hexagonal triaxial geogrid and quadrangular triaxial geogrid

• Roll Sizes m (ft.): 3.0 × 75.0 (9.8 × 246); 4.0 × 75.0 (13.1 × 246).

• Triaxial geogrid propertiesIndex propertiesLongitudinalDiagonalTransverseGeneralRib pitch, mm (in.)Mid-rib depth, mm (in.)Mid-rib width, mm (in.)Rib shapeAperture shape

40 (1.60)	40 (1.60)
	1.3 (0.05)	1.2 (0.05)
	0.9 (0.04)	1.2 (0.05)
			rectangular
			triangular

Other specifications can be customized according to your specific requirements

Features:

• Stable triangular structure.

• Small deformation.

• Excellent bearing capacity.

• Good resistance to chemical degradation.

• High in-plane stiffness.

• High junction efficiency.

Applications:

• Applied in soil stabilization and embankment reinforcement.

• Used to enhance retaining walls, slopes, subgrade, pavement and so on.