Position components in assemblies, as well as separate or connect parts with these standoffs.

A nylon patch bonded to the threads adds friction, preventing these standoffs from loosening from vibration.

Choose these standoffs for their adherence to NAS 1831 specifications.

Mount components onto food processing lines, walls, and sanitary equipment while leaving space to clean in between.

Protect components from electrical charges.

Also known as captive standoffs, a recess under the hex clinches the panel for a strong hold that won't push, pull, or twist out. When mounted, the hex sits flush with the surface and the closed end creates a neat, finished appearance.

These standoffs are designed to fit in the limited space of compact electronics such as laptops and hand-held devices.

Once the end is clinched in place, panels with keyholes easily slide on and off these supports.

Thread the male connection into a tapped hole and snap the other end into a panel for a secure hold that can be released for repairs and upgrades.

The ends of these removable supports snap in and compress between panels to reduce vibration of miniature cooling fans in compact electronics.

Wings add tension to strengthen the hold in a hole. The other end is releasable for repairs and upgrades.

Designed for multi-level printed circuit board applications, these self-aligning, through-hole supports have a chamfered female end for stacking. The other end snaps and locks in place for a permanent connection.

Use these barrels with a screw you already have or pair with a different type of screw to create a custom fastener. Made from 18-8 stainless steel, they are chemical resistant.

Pair these screws with a barrel you already have or couple with a different barrel to create a custom fastener. Made from 18-8 stainless steel, they are chemical resistant.

These include a barrel and a screw with an extra-wide (truss) head. Made from 316 stainless steel, they have excellent chemical resistance and can be used in saltwater environments.

Use these barrels with a screw you already have or pair with a different type of screw to create a custom fastener. They're zinc plated to resist corrosion in wet environments.

Shorter than shoulder screws for use in thin material.

Use these hex drive screws and binding barrels as a low-profile alternative to standard nut and bolt combinations.

Add length to a binding barrel.

Stainless steel binding barrels and screws have excellent corrosion resistance in most environments.

Brass binding barrels and screws are corrosion resistant in wet environments and electrically conductive.

These barrels and caps are corrosion resistant in wet environments.

Create strong joints in wood and wood composite.

These binding barrels and screws have good chemical resistance.

A tamper-resistant Torx driver is required for installation and removal.

Comparable in strength to Grade 8 steel. These screws have inch thread sizes.

With threads the same diameter as the shoulder, these inch-sized screws can handle heavy loads. They’re comparable to Grade 8 steel.

Use these screws in thin materials; they have a shorter threaded portion than our standard shoulder screws. They’re comparable in strength to Grade 8 steel.

More corrosion resistant than 18-8 stainless steel shoulder screws, these have excellent resistance to chemicals and salt water. These screws have inch thread sizes.

These screws have metric thread sizes. They are 18-8 stainless steel for good chemical resistance.

With inch-sized threads the same diameter as the shoulder, these screws can handle heavy loads. They’re 18-8 stainless steel for good chemical resistance.

Nickel alloy shoulder screws are more resistant to acids and salt water than stainless steel shoulder screws.

One-third the weight of steel, aluminum shoulder screws are lightweight and have good corrosion resistance.

Screw these shoulders onto a stud.

More corrosion resistant than 18-8 stainless steel shoulder screws, these have excellent resistance to chemicals and salt water.

A zinc plating provides mild corrosion resistance.

Available in metric sizes, these screws have a locking element on the threads that adds friction to resist loosening. Comparable to Grade 8 steel, they are the strongest screws we offer.

Tighten these shoulder screws by turning them to the left; once fastened, they resist loosening from counterclockwise motion.

With a reduced head size and an unthreaded shoulder, use these screws as a shaft or dowel pin for small rotating parts in low-clearance applications.

These metric screws have a head height that's about two-thirds the head height of a standard shoulder screw. Use them in low-clearance applications such as inside machines.

Without a head to get in the way, these screws fit in tight spaces where standard shoulder screws cannot. Either thread them in a countersunk hole for a flush mount, or install them with the shoulder sticking out to use them as pins or dowels for aligning and locating components.

These shoulder screws come with a traceable lot number and material test report.

Install and remove these shoulder screws by hand or with a hex key.

These metric 316 stainless steel shoulder screws are more corrosion resistant than 18-8 stainless steel shoulder screws. They also have excellent resistance to chemicals and salt water.

Offered in metric sizes, these brass shoulder screws are electrically conductive, nonmagnetic, and have good corrosion resistance.

In addition to joining male- and female-threaded parts, these adapters can increase or decrease metric thread sizes and change the thread pitch.

Change thread sizes or types, such as fine to coarse threads, on parts without changing gender.

Often called sleeve nuts, these thread adapters fasten parts with right-hand threads to parts with left-hand threads.

Increase or decrease metric thread size from one male-threaded part to another. Commonly used to connect two differently sized threaded rods, they have a hex-shaped body, so you can tighten them with a standard wrench.

Twist these adapters onto female metric threads to change pitch or switch thread sizes.

Join two female-threaded parts of various thread types and sizes, while allowing air, liquids, wire, or other thin materials to pass through.

Need to join two female-threaded parts, such as coupling nuts, with dissimilar inch thread sizes? Attach them to these adapters and tighten the exterior hex nut for a secure connection.

Screw these studs into a tapped hole and use them as a pivot point, hinge, shaft, or locator pin.

Also known as hood pins, these studs have a cotter pin lodged through a drilled hole in the unthreaded portion for light duty holding, such as securing access panels and locking other fasteners.

18-8 stainless steel studs have good chemical resistance and may be mildly magnetic. Also known as hanger bolts, use them to hang, mount, and fasten parts to wood structures.

Turn these studs with a hex key for ease of installation.

18-8 stainless steel studs have good chemical resistance.

These steel studs are zinc plated to resist corrosion in wet environments.

Add a stud to thin material when you only have access to one side.

Also known as dowel screws, use these to join two pieces of wood.

These studs have good chemical resistance. Weld them to stainless steel surfaces.

Use these metal dowel pins as pivots, hinges, shafts, jigs, and fixtures to locate or hold parts.

Oversized to fit worn and enlarged holes, these pins work well as repair and replacement parts.

To remove these pins, thread a screw or tool into the tapped hole, then pull them out.

A spiral groove cut into these pins relieves trapped air but stays in 360° contact with the hole for a secure fit that's easy to insert in and remove from blind holes. To remove, thread a screw or tool into the tapped hole, then pull the pin out.

The full length of these pins is knurled for a tight grip that won't spin.

Join two pieces of wood with these dowel pins. When glued, they expand for a tight fit.

Barbs bite into plastics and soft metals such as aluminum for a strong hold, and a round head gives a finished appearance.

Grooves hold these pins in place, and a round head gives them a finished appearance.

Grooves run the full length of these pins for a firm hold that won't spin. Use them in place of standard dowel, spring, and taper pins to fasten parts. Also known as type A pins.

These pins are commonly used as anchors for tension springs. The grooved half locks pins in position, and spring ends fit in to the notch. Also known as type G pins.

Shoulder screws have a cylindrical shoulder under the head that allows parts to rotate around or slide along its length. They have a standard shoulder with an undersized tolerance to fit most machinery and equipment.

This solid plastic bollard resists oil and chemicals and won’t rot from outdoor exposure.

Restrict and grant access to an area—these bollards act as a strong physical barrier and have a hinge to fold flat against the ground in either direction.

Combine rails, posts, and gates to make a custom guardrail system.

Start with two bases and then stack rails to the desired height.

These are the same guardrails you see along roadways.

Instead of a post, use these rings to hang chain between metal surfaces.

Provide an end point for a belt barrier.

Mark equipment at risk of being hit by vehicles.

Modular mix-and-match components allow flexible railing configurations.

Slip these posts and rails together for a complete railing—no fittings required.

Combine bases, rails, gates, and toeboards to create a barrier customized to your needs. Base is weighted to allow installation without drilling holes.