Rubble MeshThe stone笼 mesh boxes are constructed from low-carbon steel wire, high in corrosion resistance and tensile strength, with ductility, or coated with PVC, mechanically woven into the specified patterns. The diameter of the low-carbon steel wire used varies according to engineering design requirements, generally ranging from 2.0 to 4.0 mm, in accordance with ASTM and EN standards. The tensile strength of the stone笼 wire mesh is not less than 38 kg/m², the weight of the metal coating is typically above 245 g/m², and the diameter of the edge lines of the stone笼 mesh panels is generally larger than that of the wire mesh. The length of the double-strand twisting section must be no less than 50 mm to ensure that the metal and PVC coatings on the twisted wire are not damaged.

Stone笼meshThe process of using six-sided braiding is as follows: raw material selection (coils) - cold drawing/ galvanizing/ plastic coating - machine braiding - manual cutting and assembly - product inspection - packaging and transportation.

Stone笼meshSuitable for slope support, foundation pit support, rock face mesh shotcrete on mountains, slope vegetation (greening), and railway and highway isolation fence nets. It can also be made into boxes and pads for erosion protection of rivers, dams, and sea dikes, as well as for interception nets in reservoirs and rivers. The severe disaster of rivers is the erosion of the riverbank by the flow, causing flooding and massive losses of life, property, and soil erosion. Therefore, the application of this ecological mesh structure is one of the excellent solutions to address these issues, providing long-term protection for riverbeds and riverbanks.

Control and guide rivers and floods

Severe river disasters are caused by the erosion of riverbanks by flowing water, leading to flooding and massive losses of life, property, and soil erosion. Therefore, when addressing these issues, the use of this ecological grid structure has emerged as one effective solution, providing long-lasting protection for riverbeds and riverbanks.

Channel Canal Bed

The construction of channels involves the stability of slopes and riverbeds. Therefore, the use of ecological mesh structures, which have been the primary method for transforming numerous natural rivers and excavating artificial channels over the past century, is essential. It effectively protects riverbanks or riverbeds, and also controls water flow and prevents water loss, particularly in terms of environmental protection and water quality maintenance, offering excellent benefits.

● Revetment Protection

The eco-grid structure is a highly successful example in riverbank protection and slope toe stabilization. It fully leverages the advantages of eco-grids, achieving ideal effects that cannot be replicated by other methods.

Picture display of gabion and mesh products: