When designing and incorporating mesh filters, there are three elements to the mesh that your mesh supplier needs to know to ensure your filter works as intended. Wire diameter, opening size, and mesh count all play a role in the effectiveness of a mesh filer.
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When designing a mesh filter, a “good, better, best system is used. The “good” category illustrates when one of the three elements listed is provided. “Better” illustrates your ability to provide two elements, and “best” illustrates your ability to provide all three.
So, let’s say you send the mesh supplier a quote request for 200 feet of filter cloth with a mesh count of 50 microns. While the mesh supplier can provide an adequate recommendation, the inquirer’s exact needs remain unknown.
NOTE: Designing a woven wire filter may require you to convert mesh count to micron rating and vice versa. Use the following chart as a tool to help you comminate the needs of your operation:
If you were to submit a request for a 60x60 mesh filter with a wire diameter of ., the mesh supplier would have enough information to identify the mesh count and wire diameter. In turn, the mesh supplier can also calculate the opening size.
To that end, if any two elements are provided, the third can be determined; however, for best results, you should have all three ready before reaching out to the mesh filter supplier.
Read "Wire Mesh Filters: What You Need To Know Before You Buy" for insight into the mesh filter buying process.
Sample Request
Woven wire mesh filter are a big investment. To ensure you are satisfied and confident with bulk orders, you have the opportunity to request samples of both cut pieces and fabricated components.
To do so, you must reach out and provide the following information:
Having said that, there are a few limitations to note. As quantity plays a significant role in the feasibility of a sample request, we will need to establish the resources and labor your request requires.
Typically, if a woven wire supplier doesn't have the capacity to produce the desired component or specification, your sample request will get turned down. Your request can also get turned down if the rest volume doesn't align with the amount of tooling and labor needed to produce the component.
When it comes to cost, the amount you can expect to pay depends of the form factor of the sample.
If you are simply looking for cut-to-size pieces to familiarize yourself with a particular specification, the price tag will be fairly inexpensive. Of course, the price will depend on the various parameters of the specification.
If you are looking to sample a custom component, however, the expected cost will spike significantly. This is due to the increased labor needed to set up the tooling and fabricate the component.
NOTE: The expected cost of a customized part will increase as the complexity of the part increases.
If after testing the requested sample you find the performance does not meet your expectations, you should set a meeting with the mesh supplier's engineering team. This will give you the opportunity to identify the reason where improvements can be made.
Maybe it's as simple as switching someihng like the weave pattern or alloy. Or maybe you discover that woven wire mesh isn't the answer.
Either way, it is critical that you sit down with the engineering team so you can coordinate your next steps.
Now, if you are satisfied with how the component turned out, you will want to establish how many finalized parts you will need. After you decide and determine whether you will need a purchase order or blanket order, the next step would be to request a quote.
Once you receive a quote, approve it, and submit a purchase or blanket order, production will start.
You can use one of the following avenues to request a quote:
In a world where filtration plays a crucial role across industries, from automotive to medical applications, the choice of the right filter media holds immense significance. Engineers bear the responsibility of selecting filter media that strikes the optimal balance between durability, precision, and cost-effectiveness.
The repercussions of employing inadequate filter media can be significant. They may lead to irregular pressure loads within the filtration system, escalate energy expenses, and permit the passage of undesirable particles. Hence, comprehending the capabilities of woven wire mesh, especially in its role as a mesh filter, becomes imperative.
So, what exactly is a wire mesh filter?
Wire mesh, also referred to as woven wire mesh, is a structured arrangement of individual metal wires intricately interwoven to create specific pore openings of precise sizes. Before undergoing the weaving process that dates back centuries, various specifications such as mesh count, wire diameter, weave pattern, layer arrangement, and alloy type are predetermined.
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This mesh can be shaped and molded without compromising the integrity of its pore openings, enabling it to provide effective filtration across a wide array of industries.
Filters are designed as porous materials with the primary function of eliminating impurities and foreign particles from both liquids and gases. In the realm of filtration, several materials serve as filter media, including metal fiber felt and wedge wire.
Wire mesh filters consist of a network of metallic wires that form a flexible filter cloth, featuring precise and rigid pore openings engineered to suit most filter systems. Notably, owing to their robustness, metal mesh filters are among the most durable filter media available. Consequently, they find applications in diverse scenarios, such as purifying liquids in sanitary pipe systems or extracting filter cakes in nutsche filters.
Wire mesh filters offer a multitude of advantages, encompassing accuracy, flow rate, durability, and cleanability. Let's delve into how wire mesh embodies these listed benefits.
Among the notable strengths of wire mesh, its ability to provide an optimal flow rate surpasses many contemporary filter media. This adaptability stems from the customization options for wire diameter and mesh openings, enabling precise matching with the targeted contaminants. Consequently, this customization yields an expanded filtration surface area, particularly evident when employing a three-dimensional metal mesh filter. The innovative design of three-dimensional mesh filters, with dual layers of filter cloth, effectively doubles the attainable flow rate.
Although various alloys like Alloy 310, Inconel 600, Super duplex, Duplex, Hastelloy C22, and Titanium can be utilized for wire mesh filters, the prevalent use of the 300 series stainless steel stands out. This choice ensures the creation of robust filters capable of withstanding diverse impurities, fluctuating pressures, and extreme temperatures without compromising filtration accuracy. Moreover, stainless steel's malleability allows the filter to be shaped to fit specific filter systems while maintaining its structural integrity through multiple usage cycles.
The construction process of wire mesh filters undergoes rigorous monitoring, guaranteeing precise and consistent pore openings throughout the filter. This meticulous weaving process results in uniform pore sizes, ensuring the filtered substance or filter cake conforms to industry standards, offering consistent quality.
The precision in pore openings significantly reduces blinding and plugging in wire mesh filters. Combined with the enhanced flow rate, this feature facilitates easy cleaning by system operators, ensuring sustained efficiency of the metal filter mesh.
Among the primary limitations associated with wire mesh filters is the restriction on the depth to which the mesh can be drawn during the filtration system's formation. Adherence to a specific ratio is essential to prevent over-drawing the mesh, which could potentially damage its integrity.
For instance, consider a direct fuel injection automotive filter with a 5-inch diameter; its depth should not exceed five inches to maintain the mesh's structural integrity.
Furthermore, certain wire mesh weave patterns encounter limitations, unable to be woven beyond 5 microns. This limitation proves challenging, particularly when dealing with various gases, as particles of gas can typically pass through screens of this size.
The cost of a wire mesh filter varies based on numerous factors such as layer configuration, mesh specifications, and the extent of fabrication required to achieve the desired size and shape.
Moreover, the quantity of filters being procured significantly influences the overall price. Since most wire mesh filters are customized per order, setting up the necessary tooling for each specific filter demands considerable time and effort, affecting the total cost.
As a general guideline, higher purchase volumes often result in reduced overall costs when designing wire mesh filters.