Author:
Hirao Masahiko,Ogi Hirotsugu
Reference26 articles.
1. Bratina, W. (1966). Internal friction and basic fatigue mechanisms in body-centered cubic metals, mainly iron and carbon steels. In Physical Acoustics (Vol. 3A, pp. 223–291). New York: Academic Press.
2. Bratina, W. J., & Mills, D. (1962). Study of fatigue in metals using ultrasonic techniques. Canadian Metallurgical Quarterly: The Canadian Journal of Metallurgy and Materials Science 1, 83–97.
3. Buck, O., Morris, W. L., & Richardson, J. M. (1978). Acoustic harmonic generation at unbonded interfaces and fatigue cracks. Applied Physics Letters, 33, 371–373.
4. Fei, G., & Zhu, Z. (1993). The relation between the variation of stress, energy loss, ultrasonic attenuation, and dislocation configuration in aluminum during early stages of fatigue. Physica Status Solidi (a), 140, 119–126.
5. Granato, A., & Lücke, K. (1956). Theory of mechanical damping due to dislocations. Journal of Applied Physics, 27, 583–593.