Fatigue damage evolution in a particulate-reinforced metal matrix composite determined by acoustic emission and compliance method
Biermann H, Vinogradov A, Hartmann O, Hartmann O (2021)
Publication Type: Journal article
Publication year: 2021
Journal
Book Volume: 93
Pages Range: 719-723
Journal Issue: 7
Abstract
The damage evolution during fatigue of a particulate-reinforced metal matrix composite was investigated experimentally by two methods, i. e., by the measurement of the samples' stiffness values within individual stress - strain hysteresis loops and by the measurement and evaluation of the acoustic emission during cyclic deformation. Both methods indicate that the first damage occurs during the first loading cycle, in tension as well as in compression. After a short period of a high damage rate which is due to fracture of large particles, a longer range of a smaller damage rate follows, in which smaller particles break. Finally, both methods indicate the growth of the main (and final) fatigue crack.
Involved external institutions
Japan (JP)How to cite
APA:
Biermann, H., Vinogradov, A., Hartmann, O., & Hartmann, O. (2021). Fatigue damage evolution in a particulate-reinforced metal matrix composite determined by acoustic emission and compliance method. International Journal of Materials Research, 93(7), 719-723. https://dx.doi.org/10.3139/ijmr-2002-0121
MLA:
Biermann, Horst, et al. "Fatigue damage evolution in a particulate-reinforced metal matrix composite determined by acoustic emission and compliance method." International Journal of Materials Research 93.7 (2021): 719-723.
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