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Connect these internally threaded shafts directly to threaded components, or use a fastener to secure. They have a flat surface area that allows set screws to dig into the shaft for securely mounting gears, sprockets, and bearings.
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.
Attach threaded accessories, such as mixer propellers and fan blades, to the end of these shafts.
Connect these internally threaded shafts directly to threaded components, or use a fastener to secure.
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.
Designed for use with right-hand, internally threaded rod ends, these rods have right-hand threads on both ends. Use them for remote valve operators, throttle controllers, shifting mechanisms, and virtually any push/pull assembly.
Designed for use with right-hand, externally threaded rod ends, these rods have right-hand threads on both ends. Use them for remote valve operators, throttle controllers, shifting mechanisms, and virtually any push/pull assembly.
Also known as single-start and self-locking lead screws and nuts, these have a single thread that runs the length of the screw. The nut travels only when the screw turns, so your system won't unexpectedly move when the lead screw is at rest.
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.
Comparable to Grade 8 steel, these threaded rods have a tensile strength of 150,000 psi, making them about 25% stronger than medium-strength steel rods.
Grade B7, these threaded rods have a tensile strength about one and a half times stronger than low-strength steel rods. They meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
Drive and secure these threaded rods on both ends with the included nuts. They’re Grade B7, so their tensile strength is about one and half times higher than low-strength steel rods.
Tighten these threaded rods by turning them to the left; once fastened, they resist loosening from counterclockwise motion. Made from Grade B7 steel, their tensile strength is one and a half times higher than low-strength steel rods.
Grade B16 threaded rods maintain their strength at higher temperatures than Grade B7 threaded rods. They meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
About half the strength of medium-strength steel threaded rods, use these for light duty hanging, mounting, and fastening.
Tighten these threaded rods by turning them to the left; once fastened, they resist loosening from counterclockwise motion. About half the strength of medium-strength steel threaded rods, use them for light duty hanging, mounting, and fastening.
18-8 stainless steel threaded rods have good chemical resistance.
Tighten these threaded rods by turning them to the left; once fastened, they resist loosening from counterclockwise motion.
Grade B8 threaded rods meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges. They have good chemical resistance.
More corrosion resistant than 18-8 and 410 stainless steel threaded rods, these 316 stainless steel rods have excellent resistance to chemicals and salt water.
These hardened 316 stainless steel threaded rods are 40% stronger than standard Grade B8M threaded rods. They meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
Grade B8M threaded rods meet the pressure and temperature requirements of ASTM A193 and are often used to secure pressure tanks, valves, and flanges.
The most corrosion resistant stainless steel threaded rods we offer, these Alloy 20 stainless steel threaded rods contain nickel to withstand exposure to sulfuric, phosphoric, and nitric acids.
Made from nylon 6/6, these threaded rods resist oil, grease, and solvents. They’re nonconductive, making them good for use around sensitive electrical components.
Unlike metal rods, these threaded rods will not warp at extreme temperatures, making them ideal for heat treating and furnace fixtures.
Fiberglass threaded rods are stronger than nylon threaded rods. They resist acids, solvents, salt water, and oil.
PVC threaded rods resist acids, alkalies, salt solutions, and alcohol.
PTFE threaded rods withstand temperatures up to 250° F and resist oil, grease, detergents, and most mineral acids. They're the lowest friction plastic threaded rods we offer, so they thread on smoothly.
These acetal threaded rods won't absorb moisture like nylon and fiberglass rods, so they're good for use in wet environments. They resist alcohol, gasoline, and solvents.
One-third the weight of steel, aluminum threaded rods resist corrosion in wet environments.
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.
Brass threaded rods are corrosion resistant in wet environments, electrically conductive, and nonmagnetic.
Bronze threaded rods are stronger and more resistant to salt water than brass rods.
More corrosion resistant than 400 nickel threaded rods, these C276 nickel rods are often used in marine environments and chemical-processing plants.
Commonly used in valves, pumps, and shafts, these 400 nickel threaded rods resist salt water and caustic chemicals.
Titanium threaded rods have a high strength-to-weight ratio and are resistant to acids and salt water.
A hex drive on one end allows these rods to be turned with a hex key for ease of installation.
Screw these studs into a tapped hole and use them as a pivot point, hinge, shaft, or locator pin.
Known as setup studs, these studs withstand sideways forces better than fully threaded studs because they have a strong unthreaded middle.
Also known as tap-end, fixture, and setup studs, these studs have Class 5 friction-fit threads on one end to resist loosening and Class 2A standard threads on the other end for attaching a nut.
The shoulder’s diameter is slightly smaller than listed, so these studs fit most machinery and equipment.
Connect and separate threaded rods, studs, and other components. These hollow rods have internal threads on both ends, so you can make connections and still pass wiring and other objects through the center of the rod.
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.
These studs are also known as hanger bolts—use them to hang, mount, and fasten parts to wood structures.
A hollow center allows these studs to be used as an axle, a vent, or a passageway for wiring.
Pass these studs through a hole and weld them in place.
These studs have good chemical resistance. Weld them to stainless steel surfaces.
Add a stud to thin material when you only have access to one side.
Connect float valve bodies and floats with these rods.
Attach a ball knob to one of these shafts to create custom handles for operating machinery.
An easy-to-grip ball knob makes these handles a good replacement for gear levers. Use them to operate machinery.