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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.
Mount components onto food processing lines, walls, and sanitary equipment while leaving space to clean in between.
The magnetic end of these standoffs makes it easy to temporarily mount or reposition components on magnetic surfaces.
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.
A recess under the hex clinches a panel for a strong hold that won't push, pull, or twist out. When mounted with a lever press, the hex sits flush with the surface and the open end creates a through hole.
These standoffs are designed to fit in the limited space of compact electronics such as laptops and hand-held devices.
Both ends snap and lock in place for a permanent connection.
Stick these supports to surfaces where you don't want to drill a hole. The snap-in end 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.
In enclosures and other places where you don’t want to drill a hole, mount circuit boards and other thin panels with these supports.
Use these barrels with a screw you already have or pair with a different type of screw to create a custom fastener. Made from 316 stainless steel, they have excellent chemical resistance and can be used in saltwater environments.
Use these hex drive screws and binding barrels as a low-profile alternative to standard nut and bolt combinations.
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.
With a shoulder that’s twice as precise as standard shoulder screws, these metric shoulder screws act as a shaft or axle for bearings and other moving parts in applications that require smooth and accurate movement, such as measuring and lab equipment. Made of 18-8 stainless steel, they’re nearly as strong as steel but won’t rust in outdoor or washdown environments.
Install and remove these metric 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.
These screws have a head height about one-third the head height of a standard shoulder screw. Use them in low-clearance applications such as inside machines.
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.
These screws have metric thread sizes. They are 18-8 stainless steel for good chemical resistance.
For metric thread sizes with excellent resistance to chemicals and salt water, choose these 316 stainless steel shoulder screws.
Comparable to Class 12.9 steel.
The metric-sized threads on these screws are the same diameter as the shoulder. Comparable in strength to Class 12.9 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.
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.
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.
Also known as wheel and axle bolts, these metric screws have an unthreaded shoulder that acts as a shaft, so material attached to the threaded end can rotate.
Screw the threaded end of these metric studs into a tapped hole and use the unthreaded end as a pivot point, hinge, shaft, or locator pin.
Stick these studs to nearly any surface for a strong bond and a watertight seal.
316 stainless steel studs have excellent resistance to chemicals and salt water.
These steel studs are zinc plated to resist corrosion in wet environments.
These metric 316 stainless steel studs have excellent resistance to chemicals and salt water. Also known as hanger bolts, use them to hang, mount, and fasten parts to wood structures.
18-8 stainless steel studs have good chemical resistance.
Pass these studs through a hole and weld them in place.
In addition to joining male- and female-threaded parts, these adapters can increase or decrease metric thread sizes and change the thread pitch.
Change inch threads to metric with these adapters, or swap metric threads for inch. An external hex lets you tighten or loosen them with a wrench.
Connect male- and female-threaded parts of different thread types and sizes, while allowing air, liquids, wire, or other thin materials to pass through.
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.
Adapt threaded rods from inch to metric. These adapters connect two male-threaded fasteners, so you can change the gender of a mating part or increase or decrease its thread size. The hex-shaped body fits into the head of a standard wrench.
Twist these adapters onto female metric threads to change pitch or switch thread sizes.
One side inch, one side metric, and a hex in the middle—these handy fasteners connect two female-threaded parts, such as coupling nuts, adapting from inch threads to metric. Tighten with a standard wrench.
Join two female-threaded parts of various thread types and sizes, while allowing air, liquids, wire, or other thin materials to pass through.
Use these metal dowel pins as pivots, hinges, shafts, jigs, and fixtures to locate or hold parts.
Slip these pins in and out during maintenance or prototyping—they’re undersized to make alignment easier.
To remove these pins, thread a screw or tool into the tapped hole, then pull them out.
The flat side of these pins relieves trapped air, making them easier to insert in and remove from blind holes. To remove, thread a screw or tool into the tapped hole, then pull the pin out.
These pins make good hinges or pivots. The grooved half locks pins in position, while the smooth half can act as a pivot. Also known as type H pins.
Center-groove pins are often used in place of clevis pins or to create T-handles. The grooved center locks pins in position, while the smooth ends act as a pivot. Also known as type E pins.
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.
Join two pieces of wood with these dowel pins. When glued, they expand for a tight fit.
Pass wires and other components through these hollow pins.
Dowel pins are commonly used as pivots, hinges, shafts, jigs, and fixtures to locate or hold parts. They're slightly oversized for a tight fit.
Internal threads allow you to mount these shafts onto threaded studs and fasteners, no shaft supports needed.
Mount these externally threaded shafts into tapped holes rather than using a shaft support, or attach a hex nut, shaft collar, or other threaded accessory.
Combine these general purpose shafts with a linear bearing and shaft support to create a basic linear motion system.
Lighter than solid shafts, hollow shafts reduce your total system weight and allow you to run various media such as electrical wiring, compressed air tubing, coolants, or lubricants through the center.
For your compliance and quality assurance needs, these shafts come with a material certificate with a traceable lot number.
These shafts include a support rail for a stable setup that eliminates bending and prevents linear bearings from rotating.
Thread these shafts into a tapped hole to support idler sprockets and pulleys in tensioning applications. They have a retaining-ring groove, retaining ring, and spacers to position your component and hold it in place.
Mount the flange to a machine or wall to support idler sprockets and pulleys in tensioning applications. They include washers and a nut to position your component and hold it in place.
Combine with a machine key to transmit torque to gears, sprockets, and other power transmission components.
Good for hydraulic systems, machine tools, and other high-torque applications, these shafts have teeth that transmit high rotational loads.
Combine these general purpose drive shafts with gears, sprockets, and bearings to transmit rotary motion.
A flat surface area allows set screws to dig into the shaft for securely mounting gears, sprockets, and bearings.
The diameter of these shafts is slightly smaller than listed, so precision ball bearings (ABEC-3 and above) slide on without any tools.
Install these pins in a plate or table and mate with holes in a workpiece for precise alignment.
Maintain consistent alignment in mating parts by installing a pin in one part and a liner in the other.
Convert drum openings with metric or BSPP threads to a 2 NPT pipe size.