(1) Strong adaptability: The ecological grid technology is based on a steel wire mesh box, which is a flexible structure that can adapt to various soil properties and combine well with them. It can adapt well to foundation deformation, will not weaken the overall structure, and is not easy to break and damage.
(2) Strong water permeability: The ecological grid technology can allow groundwater and infiltration water to penetrate from the gaps in the structural stone filling in a timely manner, which can effectively solve the influence of pore water pressure and is beneficial to the stability of the bank (embankment, road, mountain) slope.
(3) Strong structural integrity: The ecological grid mesh is mechanically woven into a double-twisted, honeycomb-shaped hole grid. Even if one or two wires break, the mesh will not loosen. It has ductility that cannot be replaced by other materials, large area (volume) assembly, no seams, and strong integrity.
(4) Convenient construction and easy combination: It can be made into semi-finished products in the factory according to the design intention, and can be assembled into various shapes on the construction site.
(5) Good durability: The ecological grid wire has been treated with double anti-corrosion, has strong anti-oxidation effect, is resistant to corrosion and wear, and is resistant to aging, with a long service life. (6) Beautify the environment and maintain the ecology: The stone joints of the box masonry will eventually be filled with soil (artificial or natural), and plants will gradually grow out, realizing the combination of engineering measures and plant measures, and also greening and beautifying the landscape, forming a flexible overall protective surface, and restoring the natural ecology of the building. The gaps between the structural filling materials can maintain the natural exchange function between the soil and the water, and are also conducive to the growth of plants, realizing the unity of soil and water conservation and the natural ecological environment.