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Braiding method and classification of stainless steel wire cloth

Stainless steel wire cloth is a kind of stainless steel wire mesh with a relatively large mesh size and a small stainless steel wire mesh that looks like a cloth. What is its weaving method and classification? Stainless steel wire cloth can also be called stainless steel mesh.

The specific weaving method of stainless steel wire cloth is divided into plain weave, twill weave, dense weave, mat mesh twill weave, double silk Dutch weave, and five weave weave. Each specific weaving method is explained as follows:

1. Plain weave: Each warp yarn crosses up and down through each weft thread. The diameter of the warp and the weft are the same, and the warp and weft are weaved at a 90 degree angle.

2. Twill weave: a weaving method in which each warp yarn crosses up and down every two weft yarns, and each weft thread crosses each of the two weir wires.

3. Double-filament Dutch weave: This weave is very similar to the twill Dutch weave. There are two weft threads that can be closely attached to the warp. This kind of silk cloth is mostly used to filter micron-level filtration.

4. Mat type twill weave: a weaving method in which each of the wefts passes through every two wefts, and each weft crosses up and down every two straight wires.

5. Dense weave: The diameter of the warp and weft are different, and the number of meshes is different. The characteristics are thin weft, fine weft. The warp direction is the warp direction and the weft yarn is the width direction. The dense mesh is divided into a mat mesh weave and a mat mesh weave.

6. Five-weed weaving: This kind of woven warp and weft are not woven with a single filament but with several separate filaments. This weaving is to provide a stronger and stronger stainless steel wire cloth on the basis of twill weave.

The corrosion resistance of stainless steel wire cloth is also very good. This is because it contains the elements contained in the stainless steel itself, and the basic alloying elements are nickel, molybdenum, titanium, niobium, copper, nitrogen, etc., to meet the requirements of stainless steel structure and performance for various purposes. Stainless steel is easily corroded by chloride ions. Because chromium, nickel and chlorine are isotopic elements, the isotope will be exchanged and assimilated to form corrosion of stainless steel.


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