1. The tensile force of the steel-plastic composite geogrid is borne by the high-strength steel wires in the warp and weft weaving, generating tensile modulus under low strain capacity. The longitudinal and transverse ribs work together, fully exerting the interlocking effect of the grid on the soil mass.

2. The longitudinal and transverse ribs of the steel-plastic composite geogrid are woven into a mesh with steel wire, with the outer sheath formed in one piece. The steel wire and the outer sheath work in harmony, resulting in a low tensile failure rate (not exceeding 3%). The main load-bearing element of the steel-plastic composite geogrid is the steel wire, with a low creep deformation.

3. By treating the plastic surface during production, we press rough textures to enhance the roughness of the grillage surface, thereby increasing the friction coefficient between the steel-plastic composite geogrid and the soil mass.

4. The width of the steel-plastic composite geogrid can reach 6 meters, achieving reinforcing effects.

5. The high-density polyethylene used in the steel-plastic composite geogrid ensures: It will not be eroded by acids, bases, salt solutions, or oils at room temperature; nor will it be attacked by water dissolution or microorganisms. Additionally, the high molecular properties of polyethylene are sufficient to resist aging caused by ultraviolet radiation. The longitudinal and transverse ribs of the grid work synergistically under load, preventing any node from cracking or breaking. In actual engineering, after the filling material is compacted, it is not eroded by ultraviolet light and oxygen, thus fully meeting the requirements of construction projects.

Features:

High strength, low creep, adaptable to various soil types, fully meets the requirements for tall retaining walls in high-grade highways.

2. Effective in enhancing the interlocking and gripping action of reinforced bearing surfaces, improving the bearing capacity of the foundation, effectively restricting lateral displacement of soil mass, and strengthening the stability of the foundation.

3. Offers superior features such as increased strength, high load-bearing capacity, corrosion resistance, anti-aging properties, high friction coefficient, uniform hole patterns, ease of installation, and extended service life, compared to traditional grating.

4. More suitable for deep-sea operations and embankment reinforcement, it fundamentally solves the technical challenges of low strength, poor corrosion resistance, and short service life caused by stone baskets made of other materials due to long-term erosion by seawater.

5. Effectively prevents construction damage caused by machinery碾压 and destruction during the construction process.