Tortoise shell meshes are categorized into large mud-claw tortoise shell meshes, high-temperature-resistant tortoise shell meshes, stainless steel tortoise shell meshes, and carbon steel (A3F) tortoise shell meshes. For special cases, 0Cr13 material is used. When in use, first weld the tortoise shell mesh points to the inner wall of the boiler or hot air duct, and then apply refractory material.

Turtle Shell Net Product Advantages

Hexagonal large mud pad tortoise shell mesh, significantly enhances the anchoring ability with the lining material. Subsequently, it effectively strengthens the bonding performance of the lining material itself, completely controlling the phenomenon of peeling and falling off of the heat insulation layer, and improving the bonding strength of the lining material.

Tortoise Shell Mesh Material

Wide range of materials available: A general carbon steel, 0Cr13, 1Cr13, 0Cr18Ni9, 1Cr18Ni9Ti. Hole spacing: 2cm-6cm, mesh thickness: 1cm-2.5cm, plate thickness: 1mm-3mm. Mesh size is customizable by the buyer for various specifications. We have been collaborating with multiple OEMs for the production of various metal components and have supplied various lining metal structural components to numerous petrochemical equipment manufacturing companies.

Main uses of tortoise shell net

Widely used in large-scale petrochemical equipment, especially as one of the main components for the lining structure of catalyst equipment, it enhances the wear resistance and strength of the lining. Wear-resistant linings are reinforced with turtle shell mesh, typically used in carbon steel (A3F) turtle shell mesh for general areas such as reactors, first and second-stage cyclone separators, U-shaped tube regenerators, etc. In high-temperature areas, alloy (1Cr13) turtle shell mesh is used, such as in regenerators and first and second-stage cyclone separators. The turtle shell mesh is a hexagonal pattern formed from flat steel strips of 20*17.5 mm, fixed on the end plate of the insulation nail.