Interlinked metal wires make up a welded mesh, an all-purpose material used across many industries. In construction, welded meshes can reinforce concrete structures. On the production line, they are used as strainers and sieves in the food industry. Mining industries utilize welded meshes as a means to segregate and sort minerals and rocks.
For welding applications, two distinct types of meshes are commonly used: square and rectangular meshes. The former offers four equal sides giving rise to square-shaped apertures; whereas the latter boast a rectangular formation with distinct lateral widths. The size of the openings is directly proportional to the gauge of the wire employed in the weaving process, with thicker wires providing bigger cut-outs – a 3 mm wire translates to a 3 mm opening.
A welded mesh’s sturdiness is largely dependent on the width of the wires utilized in its creation. From 1 mm to 6 mm in thickness, you can find a variety of welded meshes that differ in their levels of robustness.
Interlocking metal wires are bound together in a process known as welding to form welded meshes. The wires, woven as one, are melted at each junction, resulting in a firm union that makes the meshed strand robust.
Forged from a selection of metals tailored to almost any purpose, welded meshes offer unmatched security and versatility. Stainless steel meshes are the most durable option – so tough they can handle outdoor environments with ease – while galvanized steel meshes boast unbeatable affordability at the cost of some strength. And for those applications where weight become an issue, such as in aerospace, welded aluminum meshes remain the lightest choice.
Whether used in industry or for a particular purpose, welded meshes have become a versatile tool found in many places. Some of the widespread applications for welded meshes are:
Strengthening cement, sedimenting and categorizing stones and minerals, sieving and straining, constructing fences, cages, shelves, holders, and industrial filters – these are just some of the procedures employed to reinforce concrete.