After electrowelding and weaving, the Galvanized welded wire mesh is exactly the same as it sounds. The material is typically made of carbon steel or plain steel and is typically placed in a galvanizing bath to produce galvanization after weaving or welding specifications.
Specification:
Wire Diameter (mm) | Vertical Space (mm) | Horizontal Space (mm) | Length (m) | Width(m) |
10 | 100-500 | 30-300 | 1-8 | 0.5-3 |
9 | 100-500 | 30-300 | 1-8 | 0.5-3 |
8 | 100-500 | 30-300 | 1-8 | 0.5-3 |
7 | 50-200 | 20-300 | 1-8 | 0.5-3 |
6 | 50-200 | 20-300 | 1-8 | 0.5-3 |
5 | 50-200 | 10-200 | 1-8 | 0.5-3 |
4 | 30-200 | 10-200 | 1-8 | 0.5-3 |
2-4 | 25-100 | 10-100 | 1-6 | 0.5-3 |
1 | 33 | 15-802 | 2-2 | 8 |
Description:
Galvanizing is not a metal or alloy; it is a process in which a protective zinc coating is applied to the steel to prevent rust. However, in the wire mesh industry, it is generally considered a separate category due to its widespread use in all types of applications.
Zinc plating can be done before or after the manufacture of the wire mesh - either in braided form or in welded form. Galvanizing prior to weaving the wire mesh or galvanizing prior to welding the wire mesh indicates that the individual wires used to make the mesh have been galvanized prior to mesh weaving or welding. Depending on the mesh (or opening size) and diameter line, this is usually a cheaper option, especially if custom production is required.
After electrowelding and weaving, the Galvanized welded wire mesh is exactly the same as it sounds. The material is typically made of carbon steel or plain steel and is typically placed in a galvanizing bath to produce galvanization after weaving or welding specifications. In general, this option is more expensive based on availability and other variables, but does provide a higher level of corrosion resistance. This increased level of corrosion resistance is most pronounced at the joints or intersections of the welded wire mesh specifications after galvanizing.