Choosing the right custom basket for any given application can be tough. There are countless ways to build a basket for any given task, and not every option is right for every process. One of the key decisions that Marlin&#;s design team has to make for the custom parts washing baskets that they make is the choice between using steel wire mesh, expanded metal, and sheet metal for the bulk of each basket.
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All of these metal form types can excel at different applications. For example, unlike solid sheet metal, wire mesh and expanded metal offer a lot of open space to allow liquids to drain from the basket and air to flow into the basket&#;speeding up drying processes and keeping chemicals from sitting in the basket and causing staining or excessive corrosion, which is ideal for parts washing applications. Sheet metal, on the other hand, is often best for making sure that no parts or material can fall out of the basket because there are no openings for material to fall through. Sheet metal also tends to be stronger than wire or expanded metal baskets of the same thickness.
But, which of these materials is the best for your custom steel basket?
The choice will depend a lot on the specifics of your parts washing process. So, to help make this decision a little clearer, here is a comparison of the properties of the three types of basket:
Cost
When it comes to cost, expanded metal tends to be the least costly, wire mesh usually falls in the middle, and sheet metal is the most expensive.
Why?
The reason sheet metal is the most expensive is because it requires the most raw material. While wire mesh uses far less material, it requires the most welding work and secondary operations to ensure a strong, high-quality basket. Expanded metal falls into the middle because it uses less material than sheet metal, and requires less secondary work (welding) than steel wire does to ensure a strong basket.
Weight
Sheet metal is, naturally, the heaviest of the three per square foot of the final basket design because it has no holes. Expanded metal is slightly lighter because it has holes. Wire mesh is the lightest because it provides the most open space of the three.
Sharpness of Edges
This is a difficult piece of info to generalize about since the methods used to shape a metal form and finish it can have a significant impact on the occurrence of sharps and burrs in a basket.
Generally speaking, steel wire mesh and sheet metal will not have sharp edges except for at the location of a cut or weld in the metal, which may leave a sharp or burr. Expanded metal, on the other hand, may have leftover sharp edges caused by the expanding process where the roller simultaneously flattens and cuts the steel plate being turned into expanded metal.
However, these sharp edges can be easily remediated by using a sanding process, electropolishing, or even applying a coating to the basket to protect held parts from sharp edges.
Drainage/Airflow
As mentioned above, wire mesh has the best air flow and drainage properties of the three. Expanded metal is a close second. Sheet metal, with its complete lack of open space, has the worst drainage properties&#;which may actually be desirable for certain tasks where it&#;s important to keep materials in the basket.
Suitability for Rough Use
Any of these material types can be used for &#;rough&#; use applications, but thinner steel wires do tend to lose out compared to expanded and sheet metal forms. For example, wire mesh isn&#;t generally recommended for shot peening, which is a process that involves blasting parts with particles of material to alter their physical properties. Smaller, thinner pieces of wire just aren&#;t durable enough on their own to survive prolonged exposure to such a process to the same degree as the larger, more solid sheet metal and expanded metal materials.
In most other respects&#;temperature tolerance, suitability for use on a conveyor, ability to be coated in other materials, etc.&#;wire mesh, expanded metal, and sheet metal are all mostly similar, with actual material choice (stainless steel, plain steel, etc.) and overall design making larger impacts on performance.
So, which one is the best for your custom manufacturing basket application? Contact the experts at Marlin Steel to discuss your manufacturing application and find out!
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Expanded metal, perforated metal, welded wire and woven wire mesh &#; what&#;s the difference?
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 product&#;s characteristics.
Firstly, it&#;s important to understand how each product is manufactured&#;
Expanded Metal Mesh
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.
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Perforated Metal Mesh
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.
Welded Wire Mesh
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.
Woven Wire Mesh
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.
Now let&#;s summarise the benefits of each mesh&#;
Economy
Strength
Longevity
Aesthetics
Conductivity
Grip
Formability
Expanded Metal Mesh
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Perforated Metal Mesh
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Welded Wire Mesh
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Woven Wire Mesh
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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?
For more copper expanded metal meshinformation, please contact us. We will provide professional answers.