Galfan wire mesh plays a crucial role in ecological improvement and restoration. Do you know the scope of its application? Today, join us as we delve into this topic!

Galfan mesh is used for road, railway, and mountain protection projects against falling rocks. With the convenience of transportation and the expansion of ordinary road and railway projects, safety has become a primary concern. The secure and effective function of the mountain protection net has resolved this issue, providing excellent protection against landslides caused by rock slides.

Gabbion net堤坡 protection features excellent shock resistance, high-temperature and low-temperature tolerance, as well as moisture resistance. These durable characteristics make them suitable for geological planning in mountainous, wetland ravines, and coastal lines. They stabilize the root systems of plants and provide a more favorable environment for their growth.

Three, Gabion nets are used in hydraulic engineering. The good permeability of gabion nets provides sufficient water flow areas between the stones, which effectively achieves the protective function in protective engineering.

Four: Gabion mesh for bridge construction. The protective structure of the gabion mesh is composed of multiple mesh boxes, with wires exhibiting strong tensile strength, capable of stabilizing the bridge foundation or surrounding soil mass, thereby enhancing the stability of the plan.

The Gabion Mesh Lake Bank Reconstruction Project utilizes smooth revetments, which can also employ short spur dikes when necessary. Smooth revetments include both retaining walls and slopes. The Gabion Mesh retaining wall structure typically consists of 1-meter-high mesh boxes layered and staggered. For rivers with high flow rates, a mesh mat should be placed at the bottom, with the extended length of the mat determined by the mesh box height and the maximum erosion depth.

When the friction coefficient of the gabion soil mass is relatively small, or the active soil pressure is high, the mesh box can be tilted backward, which can effectively reduce the adverse effect of the active soil pressure on the wall. However, this tilted structure is more complex during construction.