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Nondestructive Damage Detection and Life Cycle Predictions for Advanced Composite Components
Technical Paper
2004-01-2818
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Advanced materials including metal matrix, ceramic metal matrix and other composites/metals are critical to numerous applications associated with the development of next-generation aircraft architectures whose goal is to produce aerospace platforms that are more cost efficient, safe and reliable. The wide variety of advanced materials used in aerospace construction creates significant challenges for existing material characterization technologies. Photon Induced Positron Annihilation and related technologies are currently being used to assess fatigue, thermal degradation, creep, and embrittlement in aircraft components composed of advanced composite and metal alloy materials from initial manufacture through failure, thereby providing a new reliability assessment tool for pre- and post-mission component evaluations and likelihood-of-failure assessments.
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Citation
Akers, D. and Rideout, C., "Nondestructive Damage Detection and Life Cycle Predictions for Advanced Composite Components," SAE Technical Paper 2004-01-2818, 2004, https://doi.org/10.4271/2004-01-2818.Also In
References
- Robinson, E. Y. “Design Prediction for Long-Term Stress Rupture Service of Composite Pressure Vessels,” The Aerospace Corporation Report ATR-92(2743)-1 El Segundo, California 1 December 1991
- Mandell, J.F. “Fatigue Behavior of Fiber-Resin Composites,” Department of Material Science and Engineering Report MIT-RR-R81-2 Massachusetts Institute of Technology Cambridge, Massachusetts April 1981
- Hughes, A. E. 1980 “Probing Materials with Positrons,” Materials Engineering 2 September 34 40
- Hautojarvi, P. 1979 “Positrons in Solids” Topics in Current Physics 12 Springer-Verlag, Berlin
- Schultz, P. J. Snead, C. L. Jr. 1990 “Positron Spectroscopy for Materials Characterization,” Metallurgical Transactions 21 4 May 1121 1131
- Shultz, Peter Lynn K. G. “Interaction of Positron Beams with Surfaces, Thin Films, and Interfaces,” Reviews of Modern Physics 60 3 July 1988
- Gauster, W. B. et al 1978 “A Study of Deformation Fatigue of 316 Stainless Steel at Room Temperature by Positron Annihilation” NUREG CR/0118
- Nishiwaki, K. et al 1979 “The Study of Fatigued Stainless Steel by Positron Annihilation,” Proceedings of the Fifth International Conference on Positron Annihilation, Yamanashi, Japan Hasiguti R. Fujiwara K. Japan Institute of Metals 177 180
- Krause-Rehberg, R. Leipner, H. S. 1998 “Positron Annihilation in Semi-Conductors,” Solid-State Science, Springer Series 127 July 1998 49 126