Spring Type Spring Type |
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![]() | Compression |
![]() | Extension |
System of Measurement System of Measurement |
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ID ID |
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Length Length | Show |
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Length Length | Hide |
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End Type End Type |
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![]() | Closed and Ground |
![]() | Loop |
![]() | Plain |
Material Material |
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Rate Rate |
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Finish Finish |
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Load Load |
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Hole Diameter Hole Diameter |
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Minimum Thread Length Minimum Thread Length |
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For Spring Type For Spring Type |
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For Hole Diameter For Hole Diameter |
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As you squeeze a compression spring, it pushes back to return to its original length. Rate is the amount of force required for every inch of compression or, for metric springs, millimeter of compression. The higher the rate, the harder it is to compress the spring.
Zinc-plated springs have mild corrosion resistance.
Springs with closed and ground ends sit flat, so they won’t buckle.
For technical drawings and 3-D models, click on a part number.
Wire | ||||||||||
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OD | ID | Dia. | Compressed Lg. @ Max. Load | Max. Load, lbs. | Rate, lbs./in. | Material | End Type | Pkg. Qty. | Pkg. | |
1.125" Lg. | ||||||||||
0.36" | 0.308" | 0.026" | 0.4" | 2.56 | 3.5 | Zinc-Plated Music-Wire Steel | Closed and Ground | 5 | 0000000 | 00000 |
These springs are more corrosion resistant than standard compression springs. They're also easier to compress than standard compression springs. As you squeeze a compression spring, it pushes back to return to its original length. Rate is the amount of force required for every inch of compression or, for metric springs, millimeter of compression. The higher the rate, the harder it is to compress the spring.
302 stainless steel springs have good corrosion resistance.
Springs with closed and ground ends sit flat, so they won’t buckle.
For technical drawings and 3-D models, click on a part number.
OD | ID | Wire Dia. | Compressed Lg. @ Max. Load | Max. Load, lbs. | Rate, lbs./in. | Material | End Type | Pkg. Qty. | Pkg. | |
1.125" Lg. | ||||||||||
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0.36" | 0.308" | 0.026" | 0.4" | 2.22 | 3.04 | 302 Stainless Steel | Closed and Ground | 5 | 0000000 | 00000 |
As you stretch an extension spring, it gets harder to pull. Minimum load is the amount of force required to start to extend the spring. Maximum load is the amount of force required to fully extend the spring. Rate is the amount of force required for every inch of extension.
For technical drawings and 3-D models, click on a part number.
Made of stainless steel, these springs are more corrosion resistant than steel springs. They're also easier to extend than steel springs. As you stretch an extension spring, it gets harder to pull. Minimum load is the amount of force required to start to extend the spring. Maximum load is the amount of force required to fully extend the spring. Rate is the amount of force required for every inch of extension.
For technical drawings and 3-D models, click on a part number.
Load, lbs. | |||||||||
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OD | Wire Dia. | Extended Lg. @ Max. Load | Min. | Max. | Rate, lbs./in. | Material | Pkg. Qty. | Pkg. | |
1.125" Lg. | |||||||||
0.18" | 0.018" | 2.855" | 0.12 | 1.35 | 0.7 | 302 Stainless Steel | 3 | 0000000 | 00000 |
0.234" | 0.02" | 2.695" | 0.16 | 1.18 | 0.65 | 302 Stainless Steel | 6 | 00000000 | 00000 |
0.24" | 0.037" | 1.615" | 0.7 | 7.56 | 14.25 | 302 Stainless Steel | 3 | 00000000 | 0000 |
0.3" | 0.037" | 1.825" | 0.56 | 6.26 | 8.17 | 302 Stainless Steel | 3 | 00000000 | 00000 |
A black-oxide finish provides these steel anchors with mild corrosion resistance. Attach an extension spring to a stud and then thread the stud into your part for a secure connection.
For technical drawings and 3-D models, click on a part number.
These stainless steel anchor studs offer excellent corrosion resistance. Attach an extension spring to a stud and then thread the stud into your part for a secure connection.
For technical drawings and 3-D models, click on a part number.
A black-oxide finish provides these steel anchors with mild corrosion resistance. The head swivels 360° so the spring stays straight and properly coiled. Attach an extension spring to a stud and then thread the stud into your part for a secure connection. To make tightening easier, anchors have a hex socket on the bottom and wrench flats at the top of the threads.
For technical drawings and 3-D models, click on a part number.
These stainless steel anchor studs offer excellent corrosion resistance. The head swivels 360° so the spring stays straight and properly coiled. Attach an extension spring to a stud and then thread the stud into your part for a secure connection. To make tightening easier, anchors have a hex socket on the bottom and wrench flats at the top of the threads.
For technical drawings and 3-D models, click on a part number.
Also known as roll, tension, split, and expansion pins, these pins have a slot along one side that you squeeze closed to install them into unthreaded holes. Once installed, they expand slightly, creating outward tension that holds them tight against the hole wall. These pins absorb shock and vibration in your system, and keep parts from loosening. They are often used as hinge pins, or to hold springs and power transmission components in place.
Install these pins into a hole slightly smaller than the pin diameter. They have at least one chamfered end, which means the end is angled to make insertion easier.
Breaking strength is measured as double shear, which is the amount of force required to break a pin into three pieces.
Steel pins are strong and wear resistant. Pins with a black-phosphate or zinc-plated finish have an outer layer to protect the steel underneath from rust.
18-8 stainless steel pins offer a balance of strength and corrosion resistance.
420 stainless steel pins are as strong and wear resistant as steel, with the addition of corrosion resistance in wet environments.
Passivated pins offer added protection against corrosion and oxidation.
Pins that meet ASME B18.8.2 specifications are made to ASME standards for material and dimensions.
For technical drawings and 3-D models, click on a part number.
Lg. | For Hole Dia. | Wall Thick. | Min. Hardness | Breaking Strength, lbs. | Specifications Met | Pkg. Qty. | Pkg. | |
3/32" Dia. | ||||||||
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1 1/8" | 0.094"-0.097" | 0.022" | Rockwell C43 | 1,100 | ASME B18.8.2 | 250 | 000000000 | 00000 |
1/8" Dia. | ||||||||
1 1/8" | 0.125"-0.129" | 0.028" | Rockwell C43 | 1,800 | ASME B18.8.2 | 250 | 000000000 | 00000 |
5/32" Dia. | ||||||||
1 1/8" | 0.156"-0.16" | 0.032" | Rockwell C43 | 2,700 | ASME B18.8.2 | 100 | 000000000 | 0000 |
3/16" Dia. | ||||||||
1 1/8" | 0.187"-0.192" | 0.04" | Rockwell C43 | 4,100 | ASME B18.8.2 | 100 | 000000000 | 0000 |
1/4" Dia. | ||||||||
1 1/8" | 0.25"-0.256" | 0.048" | Rockwell C43 | 7,000 | ASME B18.8.2 | 100 | 000000000 | 0000 |
Lg. | For Hole Dia. | Wall Thick. | Min. Hardness | Breaking Strength, lbs. | Specifications Met | Pkg. Qty. | Pkg. | |
3/32" Dia. | ||||||||
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1 1/8" | 0.094"-0.097" | 0.022" | Rockwell C43 | 1,100 | ASME B18.8.2 | 250 | 000000000 | 000000 |
1/8" Dia. | ||||||||
1 1/8" | 0.125"-0.129" | 0.028" | Rockwell C43 | 1,800 | ASME B18.8.2 | 100 | 000000000 | 0000 |
5/32" Dia. | ||||||||
1 1/8" | 0.156"-0.16" | 0.032" | Rockwell C43 | 2,700 | ASME B18.8.2 | 100 | 000000000 | 0000 |
3/16" Dia. | ||||||||
1 1/8" | 0.187"-0.192" | 0.04" | Rockwell C43 | 4,100 | ASME B18.8.2 | 100 | 000000000 | 0000 |
1/4" Dia. | ||||||||
1 1/8" | 0.25"-0.256" | 0.048" | Rockwell C43 | 7,000 | ASME B18.8.2 | 100 | 000000000 | 00000 |
Lg. | For Hole Dia. | Wall Thick. | Min. Hardness | Breaking Strength, lbs. | Passivation | Specifications Met | Pkg. Qty. | Pkg. | |
3/32" Dia. | |||||||||
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1 1/8" | 0.094"-0.097" | 0.022" | Not Rated | 650 | Not Passivated | ASME B18.8.2 | 100 | 000000000 | 000000 |
1/8" Dia. | |||||||||
1 1/8" | 0.125"-0.129" | 0.028" | Not Rated | 1,000 | Not Passivated | ASME B18.8.2 | 100 | 000000000 | 0000 |
5/32" Dia. | |||||||||
1 1/8" | 0.156"-0.16" | 0.032" | Not Rated | 1,600 | Not Passivated | ASME B18.8.2 | 100 | 000000000 | 00000 |
3/16" Dia. | |||||||||
1 1/8" | 0.187"-0.192" | 0.04" | Not Rated | 2,400 | Passivated | ASME B18.8.2 | 50 | 000000000 | 00000 |
1/4" Dia. | |||||||||
1 1/8" | 0.25"-0.256" | 0.048" | Not Rated | 4,100 | Not Passivated | ASME B18.8.2 | 25 | 000000000 | 0000 |
Lg. | For Hole Dia. | Wall Thick. | Min. Hardness | Breaking Strength, lbs. | Passivation | Specifications Met | Pkg. Qty. | Pkg. | |
3/32" Dia. | |||||||||
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1 1/8" | 0.094"-0.097" | 0.022" | Rockwell C43 | 1,100 | Passivated | ASME B18.8.2 | 100 | 000000000 | 000000 |
1/8" Dia. | |||||||||
1 1/8" | 0.125"-0.129" | 0.028" | Rockwell C43 | 1,800 | Passivated | ASME B18.8.2 | 100 | 000000000 | 00000 |
5/32" Dia. | |||||||||
1 1/8" | 0.156"-0.16" | 0.032" | Rockwell C43 | 2,700 | Passivated | ASME B18.8.2 | 50 | 000000000 | 0000 |
3/16" Dia. | |||||||||
1 1/8" | 0.187"-0.192" | 0.04" | Rockwell C43 | 4,100 | Passivated | ASME B18.8.2 | 50 | 000000000 | 0000 |
1/4" Dia. | |||||||||
1 1/8" | 0.25"-0.256" | 0.048" | Rockwell C43 | 7,000 | Passivated | ASME B18.8.2 | 25 | 000000000 | 0000 |
These spiral pins remain flexible after installation, so they absorb shock and vibration better than slotted spring pins. They work well in holes that are out of round. Use them for fastening, pivoting, and holding.
Squeeze pins closed and install them in a hole slightly smaller than the pin. Tension holds them tight against the hole wall. The chamfered ends aid insertion.
Breaking strength is measured as double shear, which is the force required to break a pin into three pieces.
Steel pins offer good strength.
420 stainless steel pins resist wear as well as corrosion. They are magnetic.
Passivated pins offer added protection against corrosion and oxidation.
Inch pins meet ASME B18.8.2 specifications for material and dimensions.
For technical drawings and 3-D models, click on a part number.
For tough jobs, these spiral pins are 30% stronger than our standard coiled spring pins. They remain flexible after installation to absorb shock and vibration, and work well in holes that are out of round. Use them for fastening, pivoting, and holding.
Squeeze pins closed and install them in a hole slightly smaller than the pin. Tension holds them tight against the hole wall. The chamfered ends aid insertion.
Breaking strength is measured as double shear, which is the force required to break a pin into three pieces.
Pins meet ASME B18.8.2 specifications for material and dimensions.
Steel pins offer good strength.
420 stainless steel pins resist wear as well as corrosion. They are magnetic. Pins that are passivated offer added protection against corrosion and oxidation.
For technical drawings and 3-D models, click on a part number.