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Made of Nitronic 60 stainless steel, these inserts prevent the screw from binding or sticking without any coating or lubricant that could contaminate particle-free environments.
Eliminating the need for primer, these inserts are coated to resist corrosion when installed in different materials.
A dry film keeps the screw from sticking or binding in these inserts during installation.
Made of nickel alloy, these inserts are more resistant to acids and salt water than stainless steel inserts.
A distorted thread grips the screw to resist loosening.
Without a prong to break off and retrieve, these inserts are often used where debris could cause damage.
Inserts come with a through-hole tap and installation tool.
Assortments include various sizes of helical inserts and a tap, a drill bit, and an installation tool for each thread size.
Made of 18-8 stainless steel, these inserts have good corrosion resistance.
These inserts are made to stringent military specifications.
The strongest key-locking inserts we offer, these inserts are made to stringent military specifications.
The strongest and most corrosion-resistant stainless steel key-locking inserts we offer. Made of A286 stainless steel, these inserts stand up to salt water, harsh chemicals, and even high temperatures.
Install threads that align with off-center parts. These inserts have floating threads that account for misalignment, allowing you to insert screws at a slight angle as you fasten two parts together.
Protect threads from debris and leaks—these inserts have a closed end as a barrier.
Forming the strongest hold of any of our threaded inserts, these inserts have a distorted internal thread to lock screws into place and keys that drive into surrounding material to prevent slipping and rotating.
These inserts cut their own threads in soft metals such as aluminum, so there's no need to tap the hole. Also known as Tap-Lok inserts.
Push these inserts into untapped holes to add threads in aluminum and other soft metal.
The tapered shape makes it easier to guide these inserts into a hole during installation. Use a drill bit to create a straight hole, then taper the top half.
Install these inserts into plastic parts to create a secure base for fasteners.
With the male threaded end on these inserts, mount components directly to plastic parts.
Quicker to install than standard heat-set inserts, these inserts go in either way—no need to check which end is correct.
Made from brass, these inserts are electrically conductive, nonmagnetic, and have good corrosion resistance.
These 18-8 stainless steel inserts have better corrosion resistance than brass inserts and may be mildly magnetic.
These aluminum inserts are 70% lighter than brass inserts, electrically conductive, and nonmagnetic. They have good corrosion resistance, which is comparable to brass but not as good as stainless steel.
Made from brass, these inserts are nonmagnetic, corrosion resistant, and electrically conductive.
The flange keeps these inserts from pulling through a hole. Press them in from the underside of material, and install a screw from the top of material.
Made of 18-8 stainless steel, these inserts are stronger than brass inserts and less likely to corrode from mild chemicals and water. Install them into plastic to add durable threads.
These 18-8 stainless steel inserts have better corrosion resistance than aluminum inserts and may be mildly magnetic.
70% lighter than stainless steel, these aluminum inserts are mildly corrosion resistant and nonmagnetic.
The barbed sides keep these securely in place even before a screw is installed.
To handle greater pull force than press-fit inserts, these tapping inserts have external threads that bite into your material. They’re also known as Trisert inserts.
Integrate strong metal threads as you make parts through injection molding. These inserts become inseparable from your parts, forming a stronger bond in plastic than heat-set inserts and press-fit inserts.
Add permanent threads to sheet metal, like weld nuts, but without the setup and mess. A zinc plating on these steel press-fit nuts helps prevent rust in wet environments.
Create permanent, corrosion-resistant threads in sheet metal without the setup and mess of weld nuts.
15% narrower than other press-fit nuts, these add corrosion-resistant threads to sheet metal in tight spaces.
The strongest and hardest press-fit nuts we offer. In addition to their sturdiness, these A286 stainless steel nuts withstand harsh chemicals.
Add lightweight, corrosion-resistant threads to sheet metal.
To fit in low-clearance areas, these press-fit nuts have a flat hex head that sits flush against the surface of your material.
A nylon insert in these press-fit locknuts grips threads to prevent screws from loosening while knurls on the bottom hold these locknuts firmly in place.
Often used in low-clearance areas, these press-fit nuts have a flat hex head that sits flush with the surface of your material once they’re installed. Made from 400-series stainless steel, they add stronger threads to sheet metal than zinc-plated steel or 18-8 stainless steel nuts.
Create corrosion-resistant threads in soft metal and plastic panels—these stainless steel press-fit nuts withstand exposure to water and chemicals.
Also known as broach-style captive nuts, these steel nuts add permanent threads to soft metal and plastic panels.
These tools include everything you need to install press-fit nuts by hand.
Screw an insert onto these tools and drive them a quarter to half-turn below the material's surface. They're compatible with helical inserts that have a prong.
Place the tip of these tools into installed inserts and push down to trigger the spring-loaded punch to break off the prong.
Place the tip of these tools into an insert and strike a light blow to the tool’s head. Then turn the tools counterclockwise with pressure to extract the insert.
Screw an insert onto these tools and drive them a quarter to half-turn below the material’s surface.
Thread these tools into an insert and turn counterclockwise to extract.
Install key-locking inserts, including Keensert®-style inserts.
Leave hand fatigue behind when installing lots of aligning key-locking inserts.
Compatible with Tap-Lok inserts.
Set swage-locking inserts into place.
Check that holes tapped for helical threads are within tolerance. To speed up tests, these gauges have a go gauge on one end and a no-go gauge on the other.