Afrl-rx-wp-tp-2008-4044 Ultrasonic Plate Waves for Fatigue Crack Detection in Multi-layered Metallic Structures (preprint)

Ultrasonic Plate Waves for Fatigue Crack Detection in Multi-layered Metallic Structures (preprint)

A representative area of concern for fatigue crack growth in aircraft occurs in multi-layered metallic structures. Ultrasonic plate waves are currently being investigated by multiple initiatives to detect these types of flaws with a minimal number of sensors to enable Structural Health Monitoring (SHM). Previous work has focused on structures with one or two layers, coupled with modeling of the...

Afrl-rx-wp-tp-2008-4022 Advanced Tem Sample Preparation Using Low Energy (preprint)

High frequency guided ultrasonic waves for hidden fatigue crack growth monitoring in multi-layer model aerospace structures

Especially for ageing aircraft the development of fatigue cracks at fastener holes due to stress concentration and varying loading conditions constitutes a significant maintenance problem. High frequency guided waves offer a potential compromise between the capabilities of local bulk ultrasonic measurements with proven defect detection sensitivity and the large area coverage of lower frequency ...

Afrl-rx-wp-tp-2008-4052 Random Heterogeneity Scales and Probabilistic Description of the Long- Lifetime Regime of Fatigue (preprint)

The long-lifetime fatigue regime is suggested to be a probabilistic realization of sequentially occurring mechanisms. We associate these mechanisms with the development of a ranking of heterogeneity scales in the material, with decreasing probability of occurrence in the order of increasing scale, at any given loading condition. The underlying drivers for these heterogeneity levels are an array...

Detection of Small Horizontal Defects in Thin Isotropic Plates Using Ultrasonic Rayleigh-Lamb Waves

This paper considers the detection of symmetric crack-like defects in thin metallic plates using longitudinal ultrasonic waves. Only physically small defect sizes are considered in order that the initial stages of crack growth, for example during fatigue, can be detected. This method has the potential to be significantly faster for non-destructively detecting defects than conventional ultrasoni...