Mild steel perforated metal mesh represents a harmonious blend of strength, versatility, and aesthetic appeal, finding its use in myriad applications across various industries.
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Its functionality rests on the distinctive pattern of holes perforated into the steel, each offering unique properties and advantages. Hexagonal and square hole patterns are among the most popular and widely used. We will examine the characteristics, applications, and factors that influence the selection of these two patterns in this comprehensive guide.
In this study, we will evaluate the suitability of hexagonal and square hole patterns in mild steel perforated metal mesh for different applications and environments. There is a selection of sizes and thicknesses to choose from which we will discuss in greater detail later in this article.
In addition to their aesthetic appeal, each pattern has its own functional characteristics, making the choice between them more than just a matter of taste.
During our exploration of hexagonal versus square holes, well examine airflow, strength, visual impact, and practical applications. The purpose of this guide is to help you understand the differences between these hole patterns and to help you select the right one for your specific needs, whether they are for architectural designs, industrial applications, or custom work.
If you cant decide between these patterns then hopefully this guide will help.
Lets get into it..
We are often asked by our customers to explain the differences between materials to help them make an informed decision on selecting the most suitable product for their application or project. A common question is: what are the differences between expanded metal, perforated metal, welded wire and woven wire mesh?
In this blog, Ian Hutchinson, Product Manager at The Expanded Metal Company, compares each products characteristics.
Expanded metal mesh is produced through bespoke tooling, which simultaneously slits and stretches material (stainless steel, mild steel, aluminium etc) fed from coil or plate. This produces no waste and in fact offers a greater yield of finished material than that which is originally fed into the process. Expanded metal mesh is also homogeneous by design, in that it is one single piece of material with no welds to break or wires to fray.
The expanded metal mesh manufacturing process can produce an array of mesh patterns, not solely limited to diamond shapes. Mesh strands exhibit an angular tilt that gives a three dimensional appearance: this offers practical benefits including aesthetic appeal (so it is ideal for use in architecture and interior design) and added grip (making it suitable for use in walkways, ramps and flooring). Raised mesh can also be used as a key to serve as a substrate for render and plaster.
It is also common for conventional expanded metal to then undergo a secondary process which involves flattening it to form a completely two dimensional flat sheet. Flattened mesh can be used in applications including filtration, machine guards, animal flooring, speaker grilles and electromagnetic screens.
Much like expanded metal, perforated metal is produced through piercing the material with bespoke tooling to offer an array of shapes such as circles, squares and diamonds. However, unlike expanded metal, perforated metal is punched and not stretched and therefore produces waste material. This clearly has cost implications especially if high value raw materials are used in the manufacturing process.
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Welded wire mesh is produced by feeding an array of metal wire from independent spools, which are then appropriately spaced and welded in place. Welded wire mesh is an economical product, however its welds are prone to becoming areas of weakness when strength and longevity are to be considered for instance in security fencing applications. Due to the nature of the welding process, material suitability is also limited.
The production of woven wire mesh involves weaving metal wire at 90 degree intervals which result in a perpendicular, repetitive arrangement akin to weaving fabric for clothing. The process lends itself well to achieving very fine apertures. However, the process relies heavily on tension rather than mechanical fixing, which means woven wire is prone to fray and not ideally suited to formed components.
Economy
Strength
Longevity
Aesthetics
Conductivity
Grip
Formability
Expanded Metal Mesh
Perforated Metal Mesh
Woven Wire Mesh
You can view our full range of expanded metal here
Need a more cost effective alternative to perforated metal mesh, why not consider our Experf range?
Need an expanded metal alternative to 50x50x3 welded wire mesh, how about our Square Mesh range?
Need a more reliable alternative to woven wire mesh for formed components, why not consider our Micromesh Range?
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