Titanium wire mesh

Titanium wire mesh is mainly used for screening, filtration, and separation of gases, liquids, and other media in acid and alkaline environments. It finds applications in industries such as high-temperature filtration, shipbuilding, military manufacturing, chemical filtration, mechanical filters, electromagnetic shielding, seawater desalination filters, high-temperature furnace heat treatment support mesh, petroleum filters, food processing, pharmaceutical filtration, and more.

There are three methods for weaving titanium wire mesh: plain weave, twill weave, and dense weave. Due to the difficulty in drawing titanium wire, the domestically proficient drawing process can achieve a wire diameter as small as 0.05mm. Titanium wire has low elongation, high strength, great elasticity, and low flexibility, which limits the production of high mesh count titanium mesh. The specifications of titanium wire mesh range from 1 mesh to 400 mesh.

Plain weave titanium mesh is the most common weaving method, characterized by an equal density of warp and weft wire diameters.

Twill weave titanium mesh uses slightly thicker titanium wire compared to plain weave, resulting in higher mesh strength. It is suitable for industries such as petroleum, chemical, synthetic fiber, aerospace, and exhibits excellent resistance to acid, alkali, high temperature, tensile strength, and wear resistance.

Plain weave woven pure titanium dense mesh and twill weave woven pure titanium dense mesh have stable filtering performance and fine characteristics. They are used in industries such as aerospace, petroleum, and chemical.

Materials: TA1, TA2, GR2, GR3, R50250, titanium alloys, etc.

Surface finishes: 1. Black (with graphite emulsion coating) 2. Bright (without graphite emulsion coating)

Mesh count: 0.2 mesh to 400 mesh

The corrosion resistance of titanium mesh:
High-purity titanium wire mesh forms a dense, strongly adhering, inert oxide film on its surface in a medium environment, resulting in passivation. This protective oxide film prevents corrosion of the titanium wire mesh substrate, especially in neutral environments such as seawater, moist chlorine gas, hypochlorite and chlorite solutions, nitric acid, chromic acid, metal chlorides, organic salts, etc. (For example, the corrosion rate of pure titanium wire mesh in 60% nitric acid solution is only 0.001mm/a). In line with the "Twelfth Five-Year" emission reduction plan of the State Council, it is encouraged to promote the transformation and upgrading of traditional industries and accelerate the use of high-tech and applicable technologies to improve traditional industries. Titanium mesh, with its superior properties, replaces traditional materials such as nickel-free stainless steel mesh and aluminum mesh. Pure titanium wire mesh has a long service life and operates safely.

Titanium wire mesh is applicable in various industries including high-temperature filtration, shipbuilding, military manufacturing, chemical filtration, mechanical filters, electromagnetic shielding, seawater desalination filters, high-temperature furnace heat treatment support mesh, petroleum filters, food processing, pharmaceutical filtration, and more.