Title :
Titanium diffusion bond evaluation via acoustic microscopy
Abstract :
The author utilized 200 MHz Rayleigh waves to perform the nondestructive evaluation of a titanium diffusion-bonded specimen, using both the imaging and metrology modes of the acoustic microscope. Optical inspection of the joint required chemical etching to reveal the oxygen-rich α-phase of the bonded region. Acoustic images of high contrast, as well as Rayleigh velocities inside and without the joint region (11% difference), were readily obtained on the as-polished surface. The results are interpreted and the implications for applications discussed. It is concluded that the acoustic microscope study has shown that diffusion-bonded regions in titanium may be identified and imaged with large contrast and good gray scale. The region of the diffusion bond stands out significantly from the surrounding bulk, adjacent to the bond plane
Keywords :
Rayleigh waves; acoustic microscopy; adhesion; nondestructive testing; titanium; 200 MHz; O2; Rayleigh velocities; Rayleigh waves; Ti diffusion bonded specimen; acoustic images; acoustic microscope; acoustic microscopy; chemical etching; contrast; gray scale; imaging models; metrology modes; nondestructive evaluation; optical inspection; Acoustic imaging; Acoustic waves; Chemicals; Diffusion bonding; Inspection; Metrology; Microscopy; Optical imaging; Performance evaluation; Titanium;
Conference_Titel :
Ultrasonics Symposium, 1988. Proceedings., IEEE 1988
Conference_Location :
Chicago, IL
DOI :
10.1109/ULTSYM.1988.49537
