Size estimation approach for naturally extended bearing spall based on proximity probes

• A novel proximity probe-based bearing spall size estimation approach was proposed. • Relative displacement between inner and outer races is used to estimate spall size. • The method was proven effective on two configurations with floating and rigid housing. • This approach is accurate and requires little signal pre-processing. Bearing fault severity assessment is a key obstacle which lies between bearing diagnostics and prognostics. Most developed methods up to date are based on vibration, acoustic emission (AE), and instantaneous angular speed (IAS) signals, however, a recent study suggested that the relative displacement between bearing inner and outer race could better reveal the naturally extended spall size than the traditionally used signals. To validate this finding, a proximity probe-based approach is proposed in this paper, and it is tested on two different facilities: a small bearing rig, and a large multi-stage gearbox rig. This approach has the advantages of low signal processing requirement and intuitiveness, and it has been proven effective on both cases.