Your Reliable Sintered Wire Mesh Manufacturer
With excellent high-pressure resistance and stable filtration effect, Filson sintered metal mesh can be applied for diffuser screens, centrifuges, breather vents, fluidized beds, chromatography, polymer, petrochemical, hydraulic filters, and more.
As one of the best sintered wire mesh manufacturers in China, Filson has already passed a lot of certifications like ISO 9001, CE, and more. Our sintered metal mesh has been selling to more than 30 countries, as we strive to yield sintered mesh with high quality and competitive price.
Sintered Wire Mesh
Why Choose Filson?
Filson has rich experience in designing, manufacturing, and even customizing frequently-used sintered metal wire mesh. So just please send us the size, application, and other specifications you need, our engineers will reply to you with professional solutions immediately.
A FREE sample could be provided for you within 7 days so that you could check all details of Filson sintered wire mesh products. Also, you will get detailed pictures and videos for each order as our commitment.
Filson: Professional Sintered Wire Mesh Supplier
Filson sintered wire mesh, also called sintered wire screen, sintered mesh, is a kind of filtration material made by pressurizing and sintering process.
It has excellent mechanical strength, high corrosion resistance, high-temperature resistance, and easy to clean.
Filson can manufacture your sintered wire mesh with different kinds of materials, such as stainless steel 304, stainless steel 316L, stainless steel 904L, nickel, Monel, even Hastelloy for high-temperature environments below 676℃.
In addition, Filson can design and fabricate many types of sintered woven wire mesh, including dutch weave sintered mesh, plain weave sintered mesh, twill weave sintered mesh and perforated metal sintered mesh.
Different weaving options can satisfy a wide range of desired filtration specifications.
Compare to traditional wire cloth, Filson sintered wire mesh has superior and comprehensive filtration performance.
Through sintering, the structural stability and fluid permeability of the sintered mesh will be greatly enhanced and the pore size will be more uniform.
Before leaving the factory, all Filson sintered wire meshes have to get through a series of tests, including Multi-pass or DOP test for filtration efficiency, porosity test and air permeability test for flow control, bubble point test for micron rating.
Whether you need standard sintered wire mesh or custom sintered mesh product, Filson will always be your best choice!
If you are looking for other metal filter products such as wedge wire filter and extruder screen, just contact Filson engineers.
Most Filson workers have over 5 years of experience in this field, so we can provide specialized help according to your needs.
Just send us an inquiry now! Our expert technical team can be 24/7 for you!
Cleaning Filson Sintered Wire Mesh:
- Physical method:
- Ultrasonic cleaning
- Backwash with cleaning gas
- Cleaning liquid recoil
- Chemical method:
- Using diluting acid or alkali
- Using surfactant, oxidizer, and other suitable agents
Note: After cleaning, we advise checking its integrity and measure pressure drop by a bubble point test.
Filson Sintered Woven Wire Mesh Structures:
The standard structure of Filson sintered woven wire mesh is made up of five layers:
- Productive layer
- Filtration layer
- Dispersion layer
- Skeleton layer
- Skeleton layer
* Strength layer for over 5 layers structure
Filson Sintered Wire Mesh Features:
- Resistant to high temperature up to 480℃
- Easy to cut, weld, bend and stretch
- Strong resistance to corrosion, oxidation and abrasion
- Widemicron rating range from 1 to 100 micron
- Uniform filtration under heavy mechanical pressure
- Superior filtration properties under harsh conditions
- Easy to clean, including both physical and chemical methods
Filson Sintered Wire Mesh Applications:
- Purification and filtration of liquid and gas
- Separation and recovery of solid particle
- Filtration of high viscosity liquids
- Filtration of oil, polyester, pharmaceutical, and chemical fiber products
People Also Ask
A sintered wire mesh is a filtering material constructed through pressing and sintering single or several layers of woven wire mesh panels.
The process forms strong, permanent bonds through heat and pressure, giving it superior and comprehensive filtration properties compared to standard woven wire mesh filter.
A sintered wire mesh can have between 2 and 7 layers or even more dependent on the customer’s needs and specifications.
Sintered Wire Mesh
You can either single or multiple layers of woven wire mesh.
Initially, you uniformly roller flattened a single layer of wire mesh to create a wire cross to ensure efficient contact.
If you want to create a multilayered mesh, then proceed and pile the components appropriately, ensuring that you laminate the fine filtering mesh with coarser protective layers.
Using a unique fixture, laminate the single or multiple mesh layers through subjecting it to high temperature and mechanical pressure.
Press in chambers filled with proprietary inset gas and raise the temperature to reach the sintering (diffusion bonding) levels.
Cool the sintered wire mesh under controlled conditions to achieve the desired level of rigidity.
After that, you can follow and work the material as expected: weld, cut, pleat, roll into diverse shapes, etc.
Pressing and sintering metal wire mesh creates a filtration material with superior filtration properties compared to standard woven wire mesh.
Sintering creates a secure and stable wire mesh that is suitable for use under high-pressure conditions.
You can use a sintered wire mesh to construct diverse kinds of filter elements such as cartridges, cylinders, discs, and candles because they have excellent mechanical strength, very stable, and durable.
Both sheet sintering and coil sintering are done to permanently bond the wire mesh intersections through heat, pressure, time, and atmosphere.
However, you can construct either single of the multilayered sintered sheet while you can only build a single layer of the sintered coil.
Whereas sheet sinters are ideal for filtration in high-pressure applications, coil sinters are suitable for applications that cannot tolerate loose wires and deep drawing.
Sintered wire mesh is usually used in the construction of filtration and purification devices.
You can use sintered wire mesh filters in diverse industries to filter fluids.
Some of the common industries that employ the use of sintered wire mesh include:
- Production of oil and gas filtration: You can use sintered mesh to construct sand control screens, flame retardant filters, and backwash filters
- Nuclear and energy: You can use it to manufacture coolant process filters, fluid bed filters,and discharge filters.
- Pharmaceutical industry: You can use it in the manufacture of scrubbing and drying units, drug purification, and medical filter plates.
- Petrochemical and refining industries: Sintered wire mesh are useful in the filtration of hot gases and corrosive liquids as well as recovery of catalysts
- Aerospace: You can use the material to construct hydraulic filters, Precise lubricating oil filters, and noise abatements
- Polymer filtration: It is fundamental in the manufacture of synthetic fibers, spin packs, and processing films.
- Food and beverage: You can use sintered wire mesh filters for filtration of flour, milk powder, impurities, water, and disposal sewage.
You can also use sintered wire mesh for powder fluidization, steam filtration, filtration of slurry oil, chromatography frits, centrifuges, and manufacture of nutsche filters.
You can have your product constructed from diverse types of weaving options.
· Plain Sintered Square Weave
You can use filter elements constructed from plain sintered square weave mesh in almost all air and fluid filtration types, including polymer production.
You can construct this kind of weave mesh by sintering together multiple layers of plain square weave mesh.
It has excellent permeability and low flow owing to its large opening area percentage.
To achieve the desired filtration features, you can combine multiple layers of sintered wave wire mesh using appropriate design.
You can construct very thick components by sintering several squares woven wire mesh for use as the bomb and frame preventer.
Despite the thickness, the combined meshes will still deliver high flow characteristics.
· Sintered Dutch Weave Mesh
You can construct a sintered Dutch weave mesh through sintering together 2 or 3 layers of standard Dutch weave meshes.
The resulting product possesses excellent mechanical strength, low permeability, and evenly spaced open mouth.
· Perforated Metal Sintered Wire Mesh
Similarly, you can construct this product by combining and sintering a perforated plate layer and several layers of woven wire mesh.
The woven wire mesh layer comprises the filtration and protective layer and a buffer sandwiched between the perforated plate and the fine grid.
You should include the perforated plate as the base layer to manufacture a firm and easy to handle slab during sintering.
The perforated plate significantly enhances the mechanical strength and resistance of the sintered wire mesh products.
You can also design any product of the desired filtration specification using perforated metal sintered wire mesh by combining several layers of gridding weave.
A high quality sintered wire mesh should possess the following qualities.
- Excellent resistance to high temperatures and pressure
- Outstanding resistance to corrosion, abrasion, and oxidation
- Great mechanical strength
- Ease of cleaning and reusing
- Easy to mechanize that is, punch, weld, shear, and fabricate into diverse forms
- Can be developed into a broad range of filtration rating.
- Robust support structures
- Easy to customize for special operations
Sintered wire mesh filters have numerous advantages compared to ordinary woven mesh filters.
When you choose sintered wire mesh filters, be sure to reap the following benefits.
Sintered wire mesh
- Excellent mechanical strength
- Resistance to corrosion
- Can withstand up to 480 °C.
- Available over a wide range of filtration needs, that is, 1 to 100 microns
- Provides sufficiently uniform filtration in high viscosity and high temperature and pressure applications
- Easy to work on, that is, cutting, welding, bending, stretching, etc.
- You can fabricate it into multiple layers that possess superior filtration properties under harsh operating conditions.
- Possess excellent stability, thus suitable for applications requiring mesh with a higher percentage of open filtration area.
- Sintering wire mesh is easy and provides quality products for the construction of high throughput filters ideal for applications needing controlled permeability.
- Easy to clean and reuse for numerous applications
- It has a stable structure that locks all mesh wires, making it possible for unique equipment fabrication into diverse and durable shapes.
Sintered wire mesh has a superior and comprehensive filtration advantages compared to traditional non sintered wire mesh.
· Hardiness and Rigidity
The sintering process makes sintered wire mesh very hard and rigid and protects it against deformation and damages.
On the other hand, traditional, non-sintered wire mesh has a loose structure making it easy to deform and break.
Sintered wire mesh has better fluid permeability compared to traditional wire cloth.
· Filtration Rating
Sintered wire mesh has uniform pore sizes and can remove particles down to a specified micron rating.
Contrastingly, traditional wire cloth has unstable pore sizes and cannot guarantee particles’ entrapment down to the set micron rating.
Sintered wire mesh rigidity makes it easy and capable of withstanding multiple backwashes hence increasing its service life.
Traditional wire cloth is less rigid and can easily breakdown when subject to multiple backwash operations under intense pressure, which lowers its useful life.
Unlike traditional wire cloth, you can fabricate sintered wire mesh elements constituting multiple layers that enhance its mechanical strength.
It makes it suitable for use in applications operating under harsher environmental conditions that would otherwise breakdown standard wire cloth
· Locking of Loose Wires
Traditional wire cloth has loose wires and can quickly lose shape and become ineffective overtime.
In contrast, Sintered wire mesh has increased stability and can be formed into various shapes because the diffusion bonding process has stabilized the wires.
You can use different types of materials to construct your sintered wire mesh.
However, various stainless steel grades are the most widely used construction material compared to other kinds of materials.
Below are the available options from which you can select your most preferred material.
- Stainless steel 304 SS: Excellent resistance to high temperature and corrosion. Also, the most used alloy.
- Stainless steel 304L: Has a lower percentage of carbon compared to 304SS for good weldability though other properties are similar
- Stainless steel 316 SS: Has enhanced resistance to corrosive chemicals due to the addition of Molybdenum
- Stainless steel 316L: Resemble 316SS properties though has a lower percentage of carbon for enhanced weldability
- Stainless steel 904L: The material is highly reliable for seawater application due to very high resistance to rust and corrosion
- Nickel: Suitable for applications working under severe corrosive environments. You can use the material where you are dealing with organic acids, chemicals, and caustics.
- Monel®: It is a very reliable alloy for applications operating under high corrosive environments due to its strong anticorrosive properties.
- You can also consider Inconel® and Hastelloy® for aggressively corrosive conditions environments.
Stainless steel is the most widely used material to construct sintered wire mesh despite other materials’ availability.
The bias towards stainless steel can be linked to the fact that you can construct versatile and robust equipment using it.
Under standards operating conditions, you can fabricate diverse types of filtration equipment and parts capable of maintaining a steady filtration rating.
Specifically, stainless steel wire has excellent resistance to high temperatures, oxidation, heavy mechanical and hydraulic pressure, corrosion, and abrasion.
Furthermore, you will not need additional fillers, alloys, or bonding agents when your subject stainless steel through diffusion bonding.
There are different grades of sintered wire mesh fabricated into various products of different series.
You can select the most appropriate ready-made product series from our catalog or request custom-made products that suit your unique needs.
Some standard product series include:
- Single-layer mesh series
- Filter plate series
- High flow series
- Perforated plate and mesh series
- Custom layer laminates
Sintered mesh laminate is a fine woven wire mesh that has been laminated with a coarser mesh to increase its thickness and strength.
Wire mesh lamination is necessary because the fine wire mesh is usually too thin and susceptible to damage even though it has the rated micron pore size.
The majority of wire laminates range in the 5 to 6 layers and provides sufficient support, strength, and protection from damages.
The structural inclusions of a sintered wire mesh widely vary from one manufacturer to the other.
Some standard arrangements of a five-layer sintered wire mesh in descending order include:
Sintered wire mesh
- Reinforced mesh; Reinforced mesh; Protection mesh; Filter mesh; Protection mesh
- Protection mesh; Filtration mesh; Dispersion mesh; Dispersion mesh; Reinforcing mesh
The reinforcing mesh provides excellent resistance to pressure.
When you purchase a sintered wire mesh, you will get the product description and performance and quality tests conducted.
You can conduct a separate test to determine whether the wire mesh meets the specified standards. Some of the test you can conduct include:
- Filtration efficiency through Multi-pass or DOP test
- Product porosity
- Air permeability
- Bubble point pressure
Yes, you can clean sintered wire mesh filters using diverse cleaning methods.
The most commonly used methods are physical and chemical.
Physical methods involve using an ultrasonic cleaning machine, backflushing with cleaning gas or cleaning liquid recoil.
You can also clean your sintered wire mesh by chemical means, which involve diluting acid or alkali, surfactants, oxidizers, and any other suitable agent.
The choice of a particular cleaning technique depends on the status of contamination, physiochemical properties of the construction material, and the contaminants’ chemical properties.
Furthermore, you can use a combination of these methods interchangeably to achieve the desired level of product regeneration.
The main difference between sintered woven wire mesh and sintered non-woven fiber mesh comes in the products’ construction phase before sintering.
Sintered Woven Mesh
You can manufacture this product through sintering together layers of woven mesh.
It has the following key advantages.
- You can fabricate them using a diverse array of construction materials, given that you will not need to weld the parts together.
- They are a perfect choice for devices with irregular shapes since you don’t have to weld them together.
- Producing sintered woven wire mesh is cheaper, easier, and faster.
- You can achieve filtration of the required sharp cut-point since it can provide the precise pore sizes needed.
- The end products will contain particles of a specific size.
- Produces lower pressure drop compared to sintered non-woven mesh
- More flexible and affordable.
Sintered Non-woven Mesh
These products are less flexible but more robust than woven mesh because the raw material is built through welding metal strands together.
- They are slightly expensive and only suitable for the construction of components with rigid designs.
- Very difficult to fabricate and consumes more time compared to woven mesh
- Need precise fabrication
- You can easily compromise the ability of the sintered non-woven mesh to filter contaminants when handled excessively.
- Possess inconsistent pore sizes because the knitting process lacks a specific defined position.
- It is more difficult to clean than sintered woven wire mesh because strand welding may produce variable pore sizes that capture particulate contaminants.
Yes, you can construct multilayered sintered wire mesh.
The majority of the applications are better suited using multilayered sintered wire mesh instead of a single layer sintered wire mesh.
A multilayered sintered wire mesh can achieve the desired micron rated filtration while still maintaining superior mechanical strength required of demanding applications.
Besides, a multilayered wire mesh is easier to clean since it can withstand the high backwash pressure.
It also has superior structural integrity and easily maintains the appropriate filter rating under intense filtration pressure.
Sintered wire mesh can have either a single or multiple layers.
In the case of multilayered sintered wire mesh, the number of layers can significantly influence its properties.
Below are some of the characteristics of different types of layered sintered wire mesh.
Sintered wire mesh filters
· Single Layered Sintered Wire Mesh
This product has a permanent filter rating, pore size, and geometry due to diffusion bonding effectiveness.
You can consider the single-layered wire mesh for constructing low-cost filters fabricated either as cylinders, discs, rings, etc.
The construction of the product does not require any sealing technique.
· Double and Triple-layered Sintered Wire Mesh
The double-layer has a filtration layer enclosed between protection layers either on the outside, inside, or both sides.
It is suitable for constructing sintered discs, candle filters, or pleated cylinder filters.
· Five Layered Sintered Wire Mesh
The fine filtration wire mesh layer is sandwiched between two coarser protective layers and then sintered together with two support layers for enhanced stability.
The two protective layers protecting the fine mesh filtration layer is enclosed between the two supportive layers.
This type of sintered wire mesh has excellent mechanical strength and resistance to pressure.
It finds usefulness in different industries and applications with demanding operating conditions.
· Six Layered Sintered Wire Mesh
This product resembles a five-layered sintered wire mesh with an additional drainage layer.
It is preferred for enhancing filtration capacity quantities.
The design specifications of your filter element must meet the desired level filtration and withstand your system’s operating conditions.
The following are some of the basic parameters you should consider while designing your sintered wire mesh filter elements.
· Pore Sizing
Your filter’s pore size rating dictates the size of particles your filter will be able to retain.
A filter element rated 5 microns’ absolute’ will retain all particles with a diameter of 5 microns and below.
In contrast, when the same filter is rated ‘nominal,’ then your filter will allow a high percentage bypass of the particles measuring 5 microns.
· Pressure Drop
Pressure drop is the loss of pressure on the filter outlet due to slowing down the process fluid as it goes through the filter.
Determine the allowance of your system pressure drop during the filter designing so as not to slow down your production process.
· Operating Temperature
You should determine the minimum and maximum allowable temperatures that your process application operates on.
It ensures that the metal alloys you choose can tolerate the temperature extremes on both ends to avoid element disintegration.
Though all sintered woven wire mesh filers possess excellent tensile and mechanical strength, you still need to determine your system requirements.
Fabricating sintered wire mesh filter elements that meet the system specifications goes a long way to ensure your filter elements’ effectiveness and durability.
In addition to the above considerations, you also need to have a more profound mastery of your process application to ensure that you fabricate the most suitable elements.
Accompanying your order alongside the following information will deliver you a product that is accustomed to your system’s unique needs.
- The type of your system application
- The nature, kind, and characteristics of the process fluid
- The features of the contaminants
- Any corrosive problems in your operating environment
- The element size, design, and shape required
- The working flow rate, pressure, and temperatures
- The mounting, installation methods
A sintered wire mesh’s service life significantly varies to grade, operating conditions, quality, the material of construction, among other factors.
When you schedule your filter regeneration right, then you can use a sintered wire mesh filter element for up to five or more years before the need for replacement.
However, the service life of your sintered wire mesh layer can significantly reduce to only a few months.
The reduction is faster when you fail to select an appropriate material for constructing your wire mesh under extremely corrosive conditions.
Depending on your unique specifications, FilSon Filters offer the perfect solution for all sintered wire mesh.
Contact us now for the best prices on sintered wire mesh.