Fatigue Life Enhancement of a D16at Aluminum Alloy for Aircraft Components with Fastener Holes-Reference-Cited by-同舟云学术

Fatigue Life Enhancement of a D16at Aluminum Alloy for Aircraft Components with Fastener Holes

Published:2020-01 Issue:1 Volume:52 Page:1-15
ISSN:0039-2316
Container-title:Strength of Materials
language:en
Short-container-title:Strength Mater

Author:

Duncheva G. V.,Maximov J. T.,Ganev N.,Anchev A. P.

Publisher

Springer Science and Business Media LLC

Subject

Mechanics of Materials

Link

https://link.springer.com/content/pdf/10.1007/s11223-020-00144-3.pdf

Reference29 articles.

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2. V. T. Troshchenko, V. I. Dragan, and S. M. Semenyuk, “Fatigue damage in light alloys under block loading, with stress concentration and fretting corrosion,” in: J. Petit (Ed.), Mechanisms and Mechanics of Damage and Failure: Proceedings of 11th Biennial European Conference on Fracture – ECF11 (Sept. 3–6, 1996, Poitiers, France), pp. 1343–1348.

3. G. I. Nesterenko and V. N. Basov, “Fatigue strength of Al-alloys in case of random spectra loading,” Proc. of 24th Int. Congr. of the Aeronatical Sciences (Aug. 29–Sept. 3, 2004, Yokohama, Japan), Paper ICAS 2004-5.4.2 (2004).

4. S. R. Salimon, A. I. Salimon, and A. M. Korsunsky, “The evolution of electrochemical, microstructural and mechanical properties of aluminum alloy 2014-T4 (D16AT) during fatigue cycling,” P. I. Mech. Eng. G-J. Aer., 224, No. 3, 339–353 (2010).

5. J. Kaniowski, “The synthetic description of the results, scientific achievements and practical applications of the Eureka – imperja project, E3496! – Improving the fatigue performance of riveted joints in airframes,” Fatigue Aircraft Struct., 1, 38–57 (2012), https://doi.org/https://doi.org/10.2478/v10164-012-0055-4.

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