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From cookware to chemical-processing equipment, 304 stainless steel is a good all-around choice for a wide range of applications.
Polished to either a brushed or mirror-like finish, this material is often used to fabricate decorative enclosures and industrial workstations.
When compared to standard 304 stainless steel, this material can be machined faster with less wear on cutting tools. It's also called Prodec and Project 70+.
This material has tighter tolerances than standard 304 stainless steel.
Harder than our other 304 stainless steel, these thin sheets offer better wear resistance for use as a wrap, liner, or cover.
This wire bounces back after bending. It’s often used to construct springs and wire rope.
Bend this wire and it will stay put. It’s frequently used as tying wire and locking wire.
The textured surface hides fingerprints and dents. This material is widely used in decorative applications, such as partitions and handrails.
Compare the appearance choices of our 304 stainless steel with these convenient selector packs.
Ideal for environments that require frequent cleaning, such as food and pharmaceutical manufacturing, these rods have a removable cover that protects their threads from dirt and grime.
Cut this stock to length to create the machine key you need. Straight keys, with a square or rectangular cross section, are the most common type of key. Install in a keyway to transmit torque from shafts to gears and other components.
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.
Maximize flow when straining your liquid process lines—material passes more quickly through this wire cloth's rectangular openings than through other wire cloth.
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.
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.
The welded joints keep opening sizes uniform and prevent fraying as you bend this wire cloth.
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.
Compare mesh size, rigidity, or construction with sample packs.
This tubing has a seamless construction with no weld bead for unrestricted flow and is stronger than welded tubing.
When your application does not require a smooth interior, this tubing is an economical choice.
This tubing is made to tighter tolerances than other stainless steel tubing.
Compared to other stainless steel tubing, this tubing is harder, stronger, and more durable.
A thin layer of silicon on the interior provides a smooth surface and offers protection against corrosive gases.
The interior and exterior are polished to a high-luster finish to resist particle buildup and allow for easy cleaning.
Also known as hypodermic or needle tubing, this tubing has thin walls and is made to tight tolerances for use in precision applications.
This tubing withstands high pressures up to 13,700 psi. It is also known as capillary tubing.
This tubing has a 90° bend that holds its shape.
The outside of this tubing is polished to a high-luster finish for a shiny appearance.
Combine with a machine key to transmit torque to gears, sprockets, and other power transmission components.
Close off openings in structures while allowing air to pass through.
Create posts of varying lengths.
Half the height and the same width as regular strut channel, this low-profile strut channel fits into tight spots and is compatible with many of the same brackets.
Run cable and tubing in the tightest spaces with channel that is one-quarter the height and one-half the width of regular strut channel.
This welded, one-piece strut channel combines two strut channels back-to-back.
Use with hex nuts to connect threaded rod.
Add hardware to strut channel without having to hold the washer in place or reach inside the channel.
Notches on these washers grip the channel to keep them in place.
Keep hardware centered in the strut channel slot.
Designed to wrap around the sides of strut channel, these brackets provide a stronger hold than other strut channel brackets.
A tab on the end of these shelf brackets fits inside the strut channel for extra stability.
Support the corners of strut channel structures.
Create a four-sided raceway for cable, or give a more finished look to strut channel structures.
Position two strut channels at a 30° to 90° angle, then tighten the bolt to secure.
This gauze creates a smooth finish and won't snag or leave strands on your work surface.