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Install and remove rings inside a bore or around a shaft.
Install and remove rings inside a bore or around a shaft. Adjust the jaw to switch from internal to external retaining ring types.
The forged construction provides high strength for durability and long life.
The pliers in these sets have a forged construction, which provides high strength for durability and long life.
Made of beryllium copper that is FM approved, these pliers satisfy OSHA requirements that specify nonsparking tools for locations where flammable vapors and combustible residues are present.
The handle locks in place to hold rings open or closed for easier installation and removal.
The pliers in these sets have a handle that locks in place to hold rings open or closed for easier installation and removal. Change tips to use a different size or angle.
Change tips to use a different size or angle.
The forged construction provides high strength for durability and long life. Use the included hex key to change tips for a different size or angle.
Insulated handles protect against shock from accidental contact with live electrical circuits. These pliers are tested to 1,000 volts to meet ASTM F1505.
Twist the handle to open and close the jaws. Change tips for a different size or angle using a hex key.
Working with large retaining rings is easier with a T-handle. Turn it to open and close the jaws. Change tips for a different size or angle using the included hex key.
Hold open retaining rings without holes, such as flat- and pointed-tip lock rings. Also known as Eaton-style, constant-section, and horseshoe snap rings.
Often used to hold open retaining rings without holes, these pliers have a forged construction for strength, durability, and a long life.
The jaws on these pliers move parallel to each other for a good grip when holding open retaining rings without holes.
The spring on one end of the tool holds the retaining ring in position for installation and the hook on the other end is for removal.
Slide the retaining ring in between the jaws of the tool and push the ring onto a shaft.
Install rings that have wide "ears." Slide the retaining ring in between the jaws of the tool and push the ring onto a shaft.
The arms slide along the handle and lock into place with thumb screws. Use these tools to install and remove rings inside a bore or around a shaft.
Slide these tools under the head of push-in rivets and squeeze the handles to pop the rivet out. They are also known as panel clip pliers.
Use the notched jaws to push the spring-clip off the link.
Also known as diagonal-cutting pliers.
Capture scraps, such as cut cable ties and wire ends, to prevent them from falling into your equipment or flying and hitting something.
Also know as nippers, these pliers have carbide-tipped jaws to break off small pieces of tile for straight cuts.
Insulated handles protect against shock from accidental contact with live electrical circuits. These cutters are tested to 1,000 volts to meet IEC 60900 and ASTM F1505.
A double hinge provides high cutting force with low gripping pressure.
Plastic-cushioned grips make these cutters easy to hold during repeated cuts.
Cut hard steel wire, nails, and small rivets close to the surface with the wide, flat jaws on these cutters.
The carbide-tipped steel jaws stay sharp longer than standard steel jaws. You can sharpen them as they wear. These cutters have a double hinge that provides high cutting force with low gripping pressure.
Snip wire close against circuit boards and other electronic components without building up electrostatic discharge (ESD).
Also known as nippers, these cutters have wide, flat jaws that cut steel wire and bolts close to the surface.