Views: 10 Author: Site Editor Publish Time: 2024-10-09 Origin: Site
The double twisting process of the double twisted hexagonal gabion mesh refers to twisting two steel wires in opposite directions to form a hexagonal mesh structure. The purpose of this process design is to increase the strength and durability of the mesh, especially in the application of gabion mesh, to ensure that the mesh can withstand a wide range of soil, stone and water pressure.
Double twisting refers to twisting two steel wires into a spiral structure, usually with each wire twisted in opposite directions. The two steel wires are twisted alternately during the weaving process to form a stable hexagonal mesh.
1. Weaving method
Direction of double twisting: The two steel wires are twisted in opposite directions, and a hexagonal mesh is formed after each twist. The way and number of twisting determine the firmness and elasticity of the mesh.
2. Advantages
Improve mesh strength: The double twisting process increases the interlocking strength of the steel wires, allowing the mesh to withstand higher tension and pressure. This is crucial for the stability and durability of the gabion mesh when filled with stone.
Improved corrosion resistance: Due to the double twisting process, the contact points of the mesh are closer, which can reduce the occurrence of corrosion because moisture and air cannot easily penetrate into the mesh.
Flexibility and adaptability: Since the mesh is hexagonal, the gabion mesh can adapt to different sizes of filling materials (such as stones, gravel, etc.), which makes it work effectively in a variety of environments.
In summary, the double twisting process of the double twisted hexagonal gabion mesh is to weave two steel wires in opposite directions into a hexagonal mesh structure, which not only improves the strength of the mesh, but also increases its flexibility and durability. It is one of the core technologies that enable the gabion mesh to work stably for a long time.