Wednesday, July 22, 2015

Retaining Rings

We are proud to announce our new line of Retaining Rings available online at

Bowed 'E' Style Retaining Ring
 What is a Retaining Ring?
A Retaining Ring is a circular fastener that holds an assembly to a shaft, or in a housing installed in a groove. After installation, the exposed portion of the ring acts as a shoulder to retain the assembly. 

Types of Retaining Rings:
Internal Retaining / Housing Rings
At the most basic level, retaining rings can be differentiated by the manner in which they are installed. Axially assembled retaining rings are installed on shafts externally, or into grooves internally. External retaining rings have lug holes that extend beyond the circumference of the ring, whereas internal retaining rings (also called housing rings) have lug holes within the circle. These holes are used in application with pliers designed for installation and removal of the parts.
External Retaining Ring

 Radially assembled retaining rings include the popular 'E' style and are installed externally into grooves on a shaft. They do not have lug holes, so they must be installed using an applicator. 

Material and Finish: 
At Albany County Fasteners we specialize in stainless steel fasteners, so we offer a full size run in stainless steel retaining clips. These corrosion resistant fasteners are made in grades PH 15-7, PH 17-7 stainless steel and have a passivated protective finish. 

Retaining rings can be used in any shaft assembly, and take the place of traditional fasteners creating less effort and less waste. When machining a shoulder they can replace a washer and nut. For a housing, they can replace bolts to retain a bearing. Additionally, they can also be used to replace the cotter pin and washer fastening method, as well as act as collars for any socket set screw. Ultimately these fasteners save time, space and money in any shaft or housing assembly making them extremely popular in the automotive, manufacturing and hydraulics industries, but the possibilities are virtually endless.

No comments:

Post a Comment