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Rotating Beam Fatigue Test Method


It is estimated that over 90% of material failures in service are caused by fatigue and not simply mechanical overloading. The execution of metals fatigue testing to calculate a material’s endurance limit is critical in many industries like aerospace and automotive to ensure safe, efficient, and long-lasting product designs.The primary method to determine a metal’s endurance limit would be through Force Controlled Constant Amplitude Axial Fatigue Testing per ASTM E466 or ISO 1099These test methods are well-regarded and performed at many materials testing labs around the world.

Rotating Beam Fatigue testing (sometimes referred to as the R.R. Moore method) has been around since the 1800s. It enables researchers to:

  • Perform fatigue testing at higher frequencies, often up to 100Hz, leading to faster actionable data compared to axial fatigue testing.
  • Save capital expenses by purchasing a much simpler and more cost-effective test machine design compared to high capacity servo-hydraulic axial fatigue test systems. Rotating beam fatigue machines often cost in the range of 20%-25% of an axial fatigue machine rated for metals testing, and don’t require as much upkeep. 

Rotating Beam Fatigue Testing Application of Force

In rotating beam fatigue testing applications, a bending stress is applied to a round specimen in constant rotation, causing the surfaces of the specimen see alternating tensile and compressive stresses. This method effectively mimics an axial fatigue test with an R value of -1.

 Rotating Beam Spindle

 Rotating Beam Fatigue and Axial Fatigue Test Methods

The main difference between the two test methods is that axial fatigue testing applies a uniform stress throughout the cross-section of the specimen under test, whereas rotating beam fatigue testing creates an applied stress that increases linearly from 0 at the neutral axis to a maximum stress value at the specimen surface. 

Rotating Beam Fatigue Test Results

While Rotating Beam Fatigue testing isn’t a replacement for Axial Fatigue testing, there is certainly a path for researchers to correlate rotating beam fatigue results to axial fatigue test results. With careful specimen preparation and by maintaining an eye on material homogeneity & surface finish, studies have shown (see references below) that it is indeed possible to accurately correlate data from the two methods. And once that correlation is determined, the road to faster data and less expensive testing is wide open!


References on ways to correlate rotating beam fatigue data to axial fatigue data:

Tomaszewski, T., and Strzelecki, P., “Analysis of Axial Load and Bending Load Effects on The Fatigue Life”, AIP Conference Proceedings 2028, 020019 (2018)

H. Özdeş, M. Tiryakioğlu, P.D. Eason, “On Estimating Axial High Cycle Fatigue Behavior by Rotating Beam Fatigue Testing: Application to A356 Aluminum Alloy Castings”, Materials Science & Engineering A, 697 (2017) 95-100.


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