Overscreens serve an important purpose in the context of filtering and straining. Those in the food and pharmaceutical industries commonly use overscreens. These screens are an affordable, long-lasting solution for filtering and straining between 74 microns/200 mesh and 1905 microns/10mesh. We are proud to state our high-quality wire mesh overscreens and SKS overscreens are made per the industry’s highest standards.
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Wire Mesh
Overscreens
Woven wire mesh overscreens are carefully fabricated and tack welded with the precise use of a welding mandrel to guarantee there is a flawless diameter over the backup-tube (a perforated core). This diameter is commonly referred to as “slip fit”. Each overscreen is individually packaged and labeled with the mesh size and part number. If you require one or several overscreens that are metal mesh, wire mesh, or stainless steel mesh, we will get them to you promptly.
SKS Overscreens
There is a difference between the wire mesh overscreens described above and SKS overscreens. SKS is an acronym short for Sanitary Kleen Screen. SKS overscreens are different in that they lack the wire intersections used in metal mesh screens. This means there is no room for products to become caught between the area where the wires intersect. As a result, the use of an SKS overscreen significantly reduces the odds of the product becoming contaminated. This variety of overscreen is made in several different opening sizes as well as multiple open area percentages. The openings range from 100 mesh to 12 mesh.
The material used for SKS overscreens is made with the piercing of a stainless steel sheet with repetition. The result is a product that looks similar to wire mesh yet is not. SKS overscreens are similar to an expanded steel mesh screen yet have comparably small holes. This variety of overscreen is also made with fabrication, tack welding with a welding mandrel, and the slip fit diameter.
Recognize the Utility of Overscreens
Overscreens are carefully made with either diminutive square or rectangular openings in-between wire. These screens are highly flexible, stable, durable, and surprisingly smooth along the surface. Heavy-duty overscreens are commonly used in all sorts of industrial and commercial applications. Businesses in the food, electronic, pharmaceutical, and other industries rely on industrial mesh screens. These overscreens function in unison with inline strainers to form a filter media that prove quite helpful for sanitary purposes.
The best overscreen manufacturers make a litany of sizes that can be interchanged with manufacturer equipment of varying specifications. Furthermore, the overscreen manufacturer you select should provide numerous fine mesh screen sizes to accommodate your unique needs. Our overscreen specialists at SaniClean Strainers are here to help you find the right overscreen for your unique business and its purpose.
Key Takeaways:
Overscreens serve an important purpose for a wide variety of businesses in numerous industries
Several different types of overscreens are available
Overscreens have varying sizes and attributes
SaniClean Strainers offers the industry’s best overscreens, strainers and filters
We have the overscreens your business needs. Reach out to us today to find out more information about our products and place an order. Our team is also available to answer any questions you have about overscreens and how they can help your unique business. You can reach us by dialing (973) 778-4478. If you would like to contact our overscreen specialists by email, send a message to sales@sanicleanstrainers.com. You can also contact our experts online by filling out our convenient online contact form.
While woven wire mesh filters can be constructed from several alloys, stainless steel is predominantly used. This is because stainless steel offers the most efficient life spans when subjected to harsh corrosive conditions and extreme temperatures.
Now, there are several stainless steel variants on the market, all with their own chemical makeup. That said, mesh filters ultimately fall within either 300 series or 400 series.
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300 series stainless steel is used to classify 9 stainless steel variants: 304, 309, 310, 316, 317, 318, 321, 330, 347. The most widely used in the 300 series family is 304 and 316 stainless steel, with the other 300 series variants being utilized for particular applications.
304 stainless steel consists of 18% chromium and 8% nickel, whereas 316 stainless steel consists of 16% chromium, 10% nickel, and 2% molybdenum. Despite their different chemical compounds, 304 and 316 stainless steels are visually similar and carry the same ability to be welded.
Read "304 vs. 316 Stainless Steel Wire Mesh: Which Alloy Should I Use?" for a more in-depth breakdown of the two 300 series variants.
Regarding woven wire mesh filters, 400 series stainless steel is used to classify 430 stainless steel as it's the most predominantly used 400 series alloy when weaving mesh. That said, 430 stainless steel consist of 11% chromium and 1% manganese.
To that end, 400 series steels typically contain higher levels of carbon than 300 series steels, making them more durable. Additionally, 400 series is widely known for its magnetic properties.
As stated above, woven wire mesh filters can be applied to a wide range of filtration applications. That said, to ensure your mesh filter best accommodates your needs, several value-added services are incorporated during the fabrication process after the mesh has been woven.
These services are called value-added services because each method and technique delivers its own unique value to the fabrication process. To that end, the following are all value-added services available to you:
After undergoing the centuries-old weaving process, woven wire filter cloth takes the form of a sheet of mesh that is often rolled for storage or delivery. That said, the pliable qualities of the mesh allow it to be cut and formed into various shapes or deep-drawn parts.
To properly bind the ends of mesh when forming a cylindrical filter or multiple layers, one of several welding techniques is usually employed. Depending on the needs of your filter, a spot, tungsten inert gas (TIG), plasma, or solder will be applied.
Simple, single-layer pieces spot welding is typically used to protect the integrity of the mesh. Spot welding is also employed when fabricating multi-layer extruder screens and gasket sock screens.
However, if the filter is more complex or needs to be leak-resistant, a TIG or plasma weld will be applied as they offer a more durable weld.
Read "4 Types of Welding Techniques Used on Woven Wire Mesh (Spot, TIG, Plasma, and Solder)" to learn more about welding wire mesh filters.
To ensure woven wire filter cloth can be molded into specific shapes and hold that shape, the mesh must undergo one of two heat treatment methods: annealing or sintering.
Annealing is the process of heating the mesh to a point in which the individual wires become softer and more malleable. As it minimizes the internal stress and hardness of the wires, it is used when you want your formed mesh to retain the desired shape.
Sintering is the heat treatment technique that heats the filter cloth until it's just below its melting point, subjecting the mesh to tremendous pressure at the same time. This technique is typically used when mesh opening accuracy is critical as it creates a more permanent bond at each wire intersection.
Read "Annealing vs Sintering Wire Mesh: Which Is Best for Me?" to learn more about heat treating your wire mesh filters.
Pleating is the process in which the filtration surface area of the mesh filter is increased without physically increasing the amount of filter cloth used. This is particularly useful when the space in which the filter can be housed is limited, but increased filtration capabilities are needed.
As filtration is a process that calls for equipment that is free of foreign objects, your mesh filters must be clean. This includes when it arrives at your facility.
To ensure your filters are free of dust, lint, or other foreign debris, you can request that your mesh undergo an ultrasonic cleaning. This involves placing the mesh in a solution bath that is agitated using high-frequency vibrations, freeing and removing unwanted particles from the mesh.
Some applications call for mesh filters to be placed into plastic injection molding to ensure the mesh properly fits the filter system without sacrificing durability or functionality. To maximize the quality of the filter, injection molding is carried out within the facility of the mesh supplier.
Calendaring is a technique used to reduce the high points of the filter cloth by applying heat and pressure to flatten the knuckles that form at each wire intersection. This strengthens the wire intersections, creating a more stable mesh filter that features a smooth, flat surface.
Implementing effective filter media is the easiest way to yield success no matter what your filter system looks like. When working with mesh filters, the easiest way to preserve the effectiveness of the mesh is to clean your filters regularly.
This helps prevent blinding, plugging, and other hindrances that can impact the efficiency of your filter. That said, a mesh filter can be cleaned by either backflushing, pressure washing, or chemical cleaning your mesh.
Backflushing is the cleaning technique in which the flow of the filter system is reversed, dislodging any contaminant particles that became stuck during normal filtration operations. This cleaning method stands out as it provides an easy means to reaching stubborn, hard-to-reach particles.
Pressure washing involves using a jet of pressurized water to lift contaminant particles and other unwanted from the surface of the mesh. This method works to minimize the need for manual scrubbing; however, it lacks the effectiveness seen when backflushing regarding purging the mesh of plugged particles.
Chemical cleaning is the cleaning technique the utilizes various chemicals to remove residual particles and debris from the surface of the mesh filter. These chemicals include detergents, solvents, and alcohol.
Chemical cleaning is possibly the most manual cleaning method of the three listed despite being the least effective against plugged contaminant particles.
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