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TFC Talks Smalley: Key Tips for Retaining Ring Groove Geometry
Justin Lawrence
Justin Lawrence
Justin specialises in the design and sale of wave springs, spiral retaining rings and quick connectors, designing custom products for a range of applications including oil & gas, automotive and medical. Justin has been with TFC for over 20 years, gaining further experience in the mechanical and industrial engineering sector.
~Ensuring proper groove geometry and edge margins~
Welcome back to Smalley Talk, where TFC engineers answer commonly asked Retaining Ring and Wave Spring design questions. This week, Justin Lawrence takes some more questions about Retaining Ring design, and how to ensure the groove geometry is correctly specified.
How important is the groove geometry?
To assure maximum load capacity it is essential to have square corners on the groove, and a correctly specified radius in the bottom of the groove. The maximum recommended groove corner radius for a Retaining Ring with a diameter up to and including 25mm is 0.10mm. For Retaining Rings with a diameter larger than 25mm, the groove radius can increase to 0.25mm (max).
Can you provide a rule of thumb for how much distance there should be between the end of a pin/bore and the groove?
The general rule for the edge margin or the distance from the end of the pin (or housing) to the groove wall should be approximately 3 times the groove depth. This ensures there is sufficient material to support load on the Retaining Ring.
In all these cases there may be a specific requirement to take into account. Detailed calculations can be checked by our engineering staff, these will take into account shaft/housing materials and also the actual diameters specified in the application.
That’s all for now, check back next time when Simon Ward will answer questions about Wave Spring performance.