The flexibility and durability of wire cloth makes it a versatile product. From the food and beverage production industry to automotive, pharmaceutical, and medical sectors, metal mesh is being increasingly used across multiple industries.
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As there is a surge in the use of wire cloth, mesh products have grown into various types, standards, and patterns catering to the industry-specific demand. The production has become exceptionally sophisticated with the invention of new molecular diffusion-bonding and lamination technologies. Depending on required materials and pore sizes, one can find the exact wire mesh material they need.
Each of these wire mesh products varies based on applications, the number of laminated layers, and mechanical properties, in addition to the fabrication process. Technical and metallurgical considerations add to the growing diversity that demands careful and need-specific selection of wire cloth. Here is a guide on different types of metal mesh products, their significance, and how to select the right product for your application.
Wire mesh refers to a metal net or screen of attached or woven strands formed by intersecting strands of wire. Stainless steel, copper, aluminum, brass, and bronze are the most popular metals used to produce wire mesh filters used for screening, structuring, and shielding. A filter made from sintered wire cloth is the best choice since sintering enables bonding at the molecular level and leads to laminated layers of woven wire.
There are two major ways of manufacturing metal mesh &#; weaving and welding. Woven wire mesh is created when metal wires are woven into a web of intersected wires. It follows the pattern of one perpendicular wire woven over and under another wire. This pattern creates a web of mesh wire. Welded wire mesh, on the other hand, is produced when metal wires are put in rows and columns as per the size of the required pores and then are welded at the intersection.
Whether meant for domestic or industrial use, sintered wire cloth comes with varying types of coarseness, weight, and aperture. Different types of sintered wire cloth have unique features, patterns, qualities, and functionalities.
Stainless Steel Wire Mesh &#; Prepared from steel or iron-nickel alloy, this type of metal mesh is strong, sturdy, and reliable. Stainless steel wire mesh can have extremely low-variant but very stable pores. It comes in both high-carbon and low-carbon variants and is available in various patterns. Sintered wire cloth of steel is the best suitable for extremely corrosive or high-temperature environments and outdoor applications. Steel wire mesh filters are widely used in separation technology, architecture, and heat conditioning.
Aluminum Wire Mesh &#; Aluminum wire mesh is often chosen for its relative affordability compared to other metals, as well as for its low weight compared to steel or stainless steel. Aluminum wire mesh is about a third of the weight of a stainless steel mesh with the same specifications, which can make it useful in the creation of items like personal audio headsets where low weight is critical.
Plain Weave Sintered Square Woven Wire Mesh &#; This type of sintered wire mesh laminate is made by sintering multiple layers of plain weave square woven wire mesh together. Because of the large open area percentages of the square woven wire mesh layers, this type of sintered wire mesh laminate has good permeability characteristics and low resistance to flow. This type of sintered wire mesh laminate is useful for polymer production, as well as a variety of fluid and air filtration applications.
Dutch Woven Sintered Wire Mesh &#; Wires of different diameters are used and pushed closer to each other to achieve a sintered wire mesh cloth of the highest density. These can be either plain or twill weave wire mesh. When made from sintered metals, the Dutch pattern produces more rigidity and tensile strength. The closer wire placement means a higher particle retention capability up to 10 micrometers. Dutch woven sintered wire mesh is used for very fine filtration applications and the making of protection chassis, enclosures, and boxes. The absence of openings allows this sintered wire cloth type to make the best water, air, fuel, plastic processing, and hydraulic filters.
5-Layer Sintered Wire Mesh &#; 5-layer sintered wire mesh is created when a single layer of fine woven wire mesh is placed between two layers of coarser square woven meshes. It is then added to two layers of a strong Dutch woven wire mesh and sintered together to form a strong plate. The single layer of fine woven wire mesh acts as the filtration layer, and can be customized to meet a particular filtration rating, ranging from 1 micron to 200 microns.
Double Weave Wire Mesh &#; A variant of the pre-crimped weave pattern, double weave wire mesh derives its name from its manufacturing process. Two wrap wires run over and under two weft wires making this type of wire mesh robust to withstand high-intensity tasks. Double weave sintered wire cloth is the top choice for vibrating screens of conveyor belts, mining filters, and crushers. Barbecues also utilize this wire mesh.
Epoxy Coated Wire Mesh &#; Epoxy coated wire mesh can be used in a variety of filtering applications and as a support or for pleat spacing in filters. Door and insect screens are oftentimes produced using epoxy coated wire mesh. The epoxy coating can be applied to plain steel, aluminum, or stainless steel wire mesh.
While buying metal mesh, one must consider the following points.
The purpose for which you need wire mesh. Each type has its advantages and disadvantages for
various applications.
The fabrication process is another important area to look at. This impacts the durability, structural rigidity, and tensile strength of a wire mesh.
Pore size and pattern is important based on industry-specific filtration needs. For example, the Dutch pattern enables much higher precision filtration of particles compared to other variants.
Contact us to discuss your requirements of Double Crimped Wire Mesh. Our experienced sales team can help you identify the options that best suit your needs.
Sintered metal or
alloy
plays a role too in selections based on temperature, environment, and nature of the application. Non-corrosive metals are a must if it is mining, oil, or water industry. At locations with extreme temperatures, metals need to be highly resistant to corrosion.
The choice of sintered metals should also consider the potential presence of contaminants in the filtering process.
Lawrence Sintered Metals makes the best-quality and budget-friendly sintered wire cloth suitable for a range of applications. Contact us to learn more about our wire mesh and the applications it can be used for.
To facilitate the centuries-old weaving process, wire mesh suppliers must employ specialized weaving looms designed to work with metallic wires. These looms consist of seven components: a warp beam, warp wires, heddle frames, weft wires, a rapier band, a reed, and a front take-up mechanism.
The warp beam is a cylindrical beam that is used to wind the warp wire after the volume and length of the wires are calculated based on the specifications of the mesh.
Warp wires are the wires that run vertically and are threaded through the entire loom.
The heddle frames are holsters that are used to organize and separate the warp wires. Looms set up to produce a square mesh may have two sets of heddle frames, whereas more complex filter cloth weaves may have more.
Weft wires are the wires the run horizontally and are typically fed by a separate spool of wire.
The rapier band system is responsible for threading the weft wire through the sets of warp wires between heddle frame movements.
The reed is one of the most essential elements of a weaving loom as it is used to position the warp wires they will be woven in and drive the weft wires into their exact potion.
The front take-up mechanism rolls the woven mesh once it is fully woven.
To initiate the weaving process, a loom operator will attach and arrange the individual wires on the warp according to their position in the weave. To prevent entanglement, these wires are housed in a wire housing unit known as a creel.
Once attached, the warp beam is wound, allowing the proper length of wire to be wrapped around the beam.
Each wire wound on the warp beam is threaded through its own heddle in a specific heddle frame then carefully threaded through the reed openings based on their order in the weave. At this point, the warp beam, heddle frame assembly are transferred to the weaving hall, and the remainder of the loom is assembled.
NOTE: A great deal of attention to detail must be applied when threading the wire through the heddle frames and reed, as this process control how accurate the mesh specifications are.
Once the loom is fully assembled and the wires are properly threaded, the weaving process can begin.
When first initializing the weaving loom, the warp beam unwinds slightly to feed a small increment of wires. At the same time, the front take-up mechanism winds the same increment of wires to maintain the required tension to produce high-quality mesh.
Once these movements are made in conjunction, the heddle frames shift to separate the wires. In a two-heddle frame system, the first heddle frame lifts one half of the wires, and the second heddle frame drives the other half of wires down.
While the two sets of wires are separated, a weft wire, typically fed from a wire spool that is separated from the creel and placed next to the loom, is shot between the wires by the rapier band. The rapier band then moves back to its resting position.
It's at this point that the reed propels the weft wire to its final position, creating the precise cross-sections that wire mesh is known for. Once the weft wire is positioned, the reed returns to its resting position.
This marks the completion of the first interval.
To continue the weaving process, the warp beam and front take-up mechanism make the same slight, rotating movement to begin another interval. At the same time, the heddle frames will switch potion, wedging the previous weft wire as the two sets of wires are separated in the opposite direction.
These joint movements repeatedly continue until the desired length and mesh specification is woven.
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