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A. V. Tompson, K. Dzh. Roudz, Dzh. K. Cheznat, and Dzh. K. Vil'yams, "Mechanisms of hardening and fracturing titanium alloys", in: Titanium. Metal Science and Technology, Vol. 1, All-Union Institute of Light Alloys, Moscow (1977), pp. 281–293.
H. Margolin, J. C. Williams, J. C. Chesnutt, and G. Lutjering, "A review of fracture and fatigue behavior of Ti-alloys," in: Titanium 80. Sci. and Technol. Proc. 4 Int. Conf., Vol. 1, Kyoto (1980), pp. 169–216.
P. Lehr, "Microscopic features and crack propagation of titanium alloys," in: Titanium 80. Sci. and Technol. Proc. 4 Int. Conf., Vol. 5, Kyoto (1980), pp. 1617–1626.
V. K. Aleksandrov, N. F. Anoshkin, G. A. Bochvar, et al., Semiproducts of Titanium Alloys [in Russian], Metallurgiya, Moscow (1979).
E. A. Borisova, G. A. Bochvar, M. Ya. Brun, et al., Metallography of Titanium Alloys [in Russian], Metallurgiya, Moscow (1980).
A. Tompson and J. C. Chesnutt, "Identification of a fracture mode: the tearing topography surface," Met. Trans.,A10, No. 8, 1193–1196 (1979).
H. Margolin, "Fracture toughness: rationalization of the role of microstructure in α+β titanium alloy," Met. Trans.,A13, No. 7, 2191–2195 (1982).
Ural Polytechnic Institute. Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 12, pp. 45–49, December, 1985.
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Anisimova, L.I., Popov, A.A. Correlation betwen the nature of failure and the microstructure and properties of (α+β) titanium alloys. Met Sci Heat Treat 27, 933–938 (1985). https://doi.org/10.1007/BF00700105
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