All Springs Are Not Equal
Wave Springs offer the unique advantage of space savings when used to replace coil springs. With their smooth, circular coiled sinusoidal wave form, and rolled round edges of pre-tempered wire, Smalley’s edgewound Wave Springs offer many advantages:

  • Reduced spring height by 50%
  • Same force and deflection as coil springs
  • Fit tight radial and axial spaces
  • Over 4,000 standard sizes in carbon and stainless steel.
  • No Tooling Charges for special designs
  • Exotic alloys for all environments 
FAQ's: TFC Smalley Spiral Wound Rings

FAQ's: TFC Smalley Spiral Wound Rings

1. Do Spirolox® Rings fit stamped ring grooves?
Yes, our Spirolox rings are designed to fit into grooves identical to those used for die-stamped circlips
such as the Anderton, Seeger or Rotor Clip type products and, benefit the assembly by the absence of
protruding lugs. We can supply an interchange listing for all our ranges or, alternatively, if you know
the part number of the product you are currently using, we will be pleased to spec the appropriate
Smalley ring for your application.
2. How are your Smalley rings installed and/or removed?
Our spiral wound rings can be installed one of two ways: firstly by winding (spiraling) the ring into the
groove where possible or, by pressing the rings axially onto a shaft or into a bore with the use of a tool
that pushes them over a tapered mandrel or through a tapered funnel. This process can easily be
automated for production assembly where high volume applications are involved. Removal of the rings
is simple as no special tools or bespoke pliers are required. By using a simple pick or flat bladed
screwdriver in between the ring's removal notch and the groove, the ring can be simply wound out of
the groove.
3. Can the retaining ring radial wall size be changed easily?
Yes, we can produce special designs with custom radial wall sizes because Smalley's unique edgewinding
process allows us to modify the ring properties without the need to modify expensive bespoke
tooling as is the norm with traditional die-stamped circlips. When changes of this type are made,
consideration needs to be given to material availability and stress related issues associated with
manufacture and installation. Our technical team are always pleased to offer the best design solution for
your application.
4. What is the upper limit for retaining ring thickness?
The limit on the material thickness is relative to the diameter of the ring itself. There are two ways to
increase the thickness of retaining rings: either by increasing the number of turns or by increasing the
thickness of a single turn ring. To determine the optimal thickness we would like to understand your
application and our technical team are on hand to review your requirements
5. I am worried the gap/removal ends on a single turn ring will damage the cavity on my internal
application. Can you create a closed ring, similar to a stamped ring, for the large cavity in my
If damaging the cavity is a concern, our multiple turn Spirolox rings can offer reduced contact with the
mating surface and is one of the primary advantages of these types of ring. Since they are produced by
coiling flattened round wire, unlike a die stamped circlip, the edge profile of the material is not sharp
and, because the material thickness per turn is significantly less than a single turn ring, the installation
forces are much lower. Also, we can supply modified end configurations that may help the desired ring

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