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In Situ Measurement of Fatigue Crack Growth Rates in a Silicon Carbide Ceramic at Elevated Temperatures Using a DC Potential System
2000
Journal of Testing and Evaluation
The understanding of the mechanisms of fatigue-crack propagation in advanced ceramics at elevated temperatures (>800°C) has in part been hampered by the experimental difficulty in directly measuring crack lengths, and hence crack-growth rates, at such high temperatures. In this study, we show how the direct-current (D.C.) electrical-potential technique, which has been used for such measurements in metallic materials for over 30 years, can be successfully utilized to monitor fatigue-crack growth
doi:10.1520/jte12100j
fatcat:qmfuxmtwqvhbnlzp6fks7653ou