Steel-plastic geogrids help control foundation deformation.

Fabricated by compositing steel-plastic reinforcement strips with innovative technologies, this product has regular coarse textures formed through surface rolling. When installed in replacement soil layers, it bears high stress and creates strong friction with fill soil, thereby restraining shear deformation, lateral extrusion and heave of foundation soil. The reinforced soil cushion features high rigidity, which facilitates the dispersion and even transmission of upper foundation loads to the underlying soft soil layers and effectively improves foundation bearing capacity.

The reinforced soil cushion also increases the overall rigidity of the foundation within the compression zone and helps regulate foundation deformation. The composite reinforced soil cushion formed with steel-plastic geogrids is a flexible structure that efficiently absorbs seismic energy, delivering excellent anti-seismic performance.

Featuring high tensile strength and low creep, steel-plastic geogrids adapt to various soil conditions and meet the application requirements for tall retaining walls on high-grade highways.

It enhances the interlocking effect of reinforced bearing surfaces, greatly increases foundation bearing capacity, restrains lateral soil displacement and improves overall foundation stability.

Compared with conventional geogrids, it boasts higher strength, greater bearing capacity, excellent corrosion resistance, superior anti-aging performance, large friction coefficient, uniform apertures, easy installation and long service life.

It is well suited for deep-sea operations and embankment reinforcement. It fundamentally solves the technical problems of traditional gabions made from other geosynthetics, such as strength degradation, poor corrosion resistance and short service life caused by long-term seawater erosion.

Steel-plastic geogrids can effectively prevent mechanical rolling and damage during construction.