A surface acoustic wave (SAW) technique has been observed to be effective in the detection of initiation and measurement of growth behavior of surface microcracks during fatigue cycling. The experimental procedure involving excitation of Rayleigh waves on the surface of a specimen under investigation is described in detail in conjunction with automated data acquisition of the reflected echo from a small surface crack. The effectiveness of a split spectrum processing algorithm to separate specular reflections of isolated cracks from non-specular reflections of microstructural features is also described. A simplified model for predicting the relationship between crack size and the amplitude of the reflected echo from a crack is included along with a description of the technique for measuring opening behavior of individual cracks in-situ during fatigue cycling. Examples of effective utilization of the SAW technique in contemporary investigations of small fatigue crack growth behavior are presented. Finally, the advantages and limitations of the technique are discussed.
The maximum stress intensity factor of a surface crack has been inferred by measuring the reflection coefficient of a Rayleigh wave incident to the crack. An acoustic surface wave wedge transducer was used to excite the incident wave and to measure the reflected-wave amplitude. The fracture stress of Pyrex glass specimens containing the acoustically measured cracks was determined in biaxial flexure. The values of the fracture stress predicted from acoustic data were found to be in excellent agreement with the measured values, with less than a 15% error.
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