Interferometric detection of acoustic waves at air-solid interface applications to non-destructive testing

摘要

In this paper, some properties of acoustic waves at the air-solid interface are reviewed and laser-ultrasonics is used to optically excite and detect these waves. In comparison with the leaky Rayleigh wave, a large amplitude is observed for the acoustic disturbance which is composed of Scholte and lateral waves. However, it is apparent from theoretical results, taking source terms into account, that the normal displacement of these waves cannot be large in such an interface. Another explanation for the high-intensity fluctuation measured is the optical heterodyne detection of the refractive index variation induced in the fluid. This assumption is experimentally checked by probing the acoustic field parallel to the surface of the sample. The potentialities of these waves in non-destructive testing are also investigated. It is clearly shown that the transmitted, reflected, or diffracted acoustic fields provide useful information about the position or the size of structures intercepting the propagation path. Indeed, glass plate thickness or steel block position can be easily determined using a time of flight analysis. This suggests a lot of new applications in the sizing of structures where noncontact measurements on inaccessible parts would be necessary.