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This wire cloth is commonly used to make strainers, filter screens, and sieves.
A convenient solution for inline filtering, discs are die cut for an exact diameter with smooth edges for use in tube, pipe, and duct.
Also known as bolting grade, this wire cloth has a large percentage of open area and ultra-thin wire to maintain flow. Use to sift and sort large quantities of dense nonabrasive materials.
Minimize clogs of dry powdered materials in sifting and sizing applications with this wire cloth, also known as milling grade.
Often used in sieves and vibratory shakers for testing applications, the openings of this wire cloth are woven to a tight size tolerance for accurate, consistent sifting results.
Designed for use in food, pharmaceutical, and other sanitary environments, this precision wire cloth is sintered (fused together) to create a strong, smooth surface that’s free of crevices where contaminants can collect.
Maximize flow when straining your liquid process lines—material passes more quickly through this wire cloth's rectangular openings than through other wire cloth.
The welded joints keep opening sizes uniform and prevent fraying as you bend this wire cloth.
Also known as space cloth, wires are crimped where they intersect to maintain an accurate opening size when used with heavy materials. The crimping process also adds strength and rigidity.
Also known as Dutch weave, this wire cloth has a tight weave that traps tiny particles and provides strength for use in high-pressure and high-flow applications.
Build screens, barriers, and enclosures that last—the PVC coating on this wire cloth provides excellent corrosion and wear resistance for a long service life.
This wire cloth is woven and available in the widest variety of sizes we offer.
Good for use with abrasive materials in noncorrosive applications, this steel wire cloth has excellent strength and good wear resistance.
These discs are die cut to an exact diameter with smooth edges for use in tube, pipe, and duct.
The epoxy coating on this wire cloth makes the steel oil resistant, protects it from corrosion, and adds rigidity for a long service life.
Choose aluminum wire cloth for good corrosion resistance at a lighter weight than steel or stainless steel.
More corrosion-resistant in salt water than stainless steel, these brass wire cloths are often used in marine environments.
Unlike brass and bronze, copper is nonsparking and nonmagnetic.
Bronze is more abrasion resistant than brass and copper for a longer service life.
Also known as Monel 400, this nickel-copper alloy is the most corrosion resistant of our wire cloth.
Also known as Nichrome, nickel-chromium alloy withstands high temperatures while resisting oxidation and scale formation.
Compare mesh size, rigidity, or construction with sample packs.
Use thesee sheets for machine guards and protective panels in noncorrosive environments.
Hexagonal holes provide a large open area for high-flow applications.
Trap small particles in low-flow applications—these sheets have tiny holes and small open area.
These sheets have good corrosion resistance, weldability, and formability. Aluminum is lightweight.
Harder and stronger than our other aluminum perforated sheets, these sheets have greater wear resistance.
These sheets are stronger than our other plastic perforated sheets for greater impact and abrasion resistance.
These are our most flexible plastic perforated sheets.
Brass is softer and easier to form compared to other metals.
Use this stiff mesh to contain, reinforce, separate, or protect materials.
This wear-resistant nylon mesh has openings that meet an exact size tolerance, providing accurate, consistent results in filtering and sifting applications.
Convenient for inline filtering, use these discs in pipe and tubing.
Use in outdoor applications.
Even when wet, this mesh stays strong.
Contain, reinforce, separate, or protect materials with this stiff mesh. It is often used in ovens and dryers and can be used with food and beverages.
Made of FDA-listed materials, this mesh withstands temperatures up to 475° F.
Use with acetone, citric acid, ethyl alcohol.
Screen rocks, gravel, and other large abrasive material in wet or dry environments.
Keep a convenient range of mesh sizes on hand.
Close off openings in structures while allowing air to pass through.
Add panels to T-slotted framing to create machine guards and strip doors.
Keep bugs out of your space without blocking airflow.
With wire strands welded at each intersection, this fencing has a strong, rigid construction.
Also known as chicken wire and poultry netting, this fencing is a flexible alternative to metal welded-wire fencing.
Prevent sediment and top soil from washing away while water flows through.
Made of finely knit corrosion-resistant mesh, this highly pliable fencing is often used to secure insulation blankets, covers, and jackets.
Use this lightweight fencing to temporarily limit access to areas of your facility.
A popular choice for controlling sand and snow drifts.
Made of galvanized steel mesh to be more cut and abrasion resistant than web or round slings, yet maintain the flexibility to conform to a load.
The built-in screen is made of corrosion-resistant 316 stainless steel and provides inline straining.
These gaskets have a perforated plate to filter, separate, and strain liquids or dry materials in your line.
A corrosion-resistant 316 stainless steel screen in these gaskets provides inline straining.
These chemical-resistant gaskets have a perforated plate that filters, separates, and strains liquids or dry materials in your line.
Offering excellent resistance to detergents, hydraulic fluid, and salts, these PTFE gaskets have a corrosion-resistant 316 stainless steel screen to provide inline straining.
A corrosion-resistant 316 stainless steel screen provides inline straining.
Use these perforated gaskets to filter liquids and dry materials, as well as create a tight seal in quick-clamp stainless steel sanitary tube fittings. Made of silicone, they handle temperatures up to 450° F, so they’re good for heated ingredients and clean-in-place (CIP) processes.