High Adaptability: Ecological mesh technology centers on steel wire mesh cages, forming a flexible structure capable of adapting to-and seamlessly integrating with-various soil conditions. It accommodates foundation deformations without compromising the structural integrity of the whole.
High Permeability: This technology effectively mitigates the impact of pore water pressure by allowing groundwater to drain promptly through the voids within the rock-filled structure, thereby enhancing the stability of slopes (whether along riverbanks, embankments, roadways, or hillsides).
Strong Structural Integrity: The ecological mesh is mechanically woven into a double-twisted, honeycomb-patterned grid. Even if one or two wires are severed, the mesh fabric remains intact and does not unravel. When assembled into large-scale structures, it forms a seamless, cohesive unit, possessing a ductility and resilience unmatched by other construction materials.
Ease of Construction and Assembly: Components can be prefabricated in a factory according to design specifications and then easily assembled on-site into various shapes. Subjected to a dual anti-corrosion treatment, the material exhibits strong resistance to oxidation, corrosion, abrasion, and aging, ensuring a long service life.
Environmental Beautification and Ecological Preservation: The voids within the stone-filled cages can be filled with soil (either manually or through natural accumulation), allowing vegetation to gradually take root and flourish. This approach seamlessly integrates engineering solutions with ecological landscaping, creating a flexible, protective surface that restores the natural ecology of the built environment. The interstitial spaces between the structural fill materials foster plant growth, thereby harmonizing soil and water conservation efforts with the natural ecosystem and preserving the natural exchange functions between the soil and water.

