Nondestructive monitoring damage in composites using scanning laser acoustic microscopySeveral Nicalon fiber reinforced LAS (lithium alumino-silicate) glass matrix composites were tested to study the relation between the residual strength and the different amounts of damage. The samples were fatigued by four-point cyclic loading at a 5 Hz rate at 500 C for a different number of cycles. 10 MHz scanning laser acoustic microscope (SLAM) images were taken to monitor damage on the samples. Our SLAM results indicate that there were defects already existing throughout the sample before fatigue, and the resultant damage pattern from fatigue could be related to the initial defect distribution in the sample. Finally, the fatigued samples were fractured and the residual strength data could not be explained by the cyclic fatigue alone. Rather, the damage patterns evident in the SLAM images were needed to explain the scatter in the data. The results show that SLAM is useful in nondestructively monitoring damage and estimating residual strength of fatigued ceramic composites.
Document ID
19950059245
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Wey, A. C. (Univ. of Illinois, Urbana, IL US, United States)
Kessler, L. W. (Univ. of Illinois, Urbana, IL US, United States)
Dos Reis, H. L. M. (Univ. of Illinois, Urbana, IL US, United States)