Fatigue Behavior of Aluminum–Lithium Alloys-Reference-Cited by-同舟云学术

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Fatigue Behavior of Aluminum–Lithium Alloys

Published:2014 Issue: Volume: Page:341-379
ISSN:
Container-title:Aluminum-lithium Alloys
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Author:

Eswara Prasad N.,Srivatsan T.S.,Wanhill R.J.H.,Malakondaiah G.,Kutumbarao V.V.

Publisher

Elsevier

Reference71 articles.

1. Cyclic strain behaviour of crystals of aluminium—4wt% copper;Abel;Acta Metall.,1966

2. Alcoa Aerospace Technical Fact Sheet, 2008. Alloy 2099-T83 and 2099-T8E67 Extrusions. AEAP-Alcoa Engineered Aerospace Products, Lafayette, IN.

3. Basquin, O.H., 1910. The exponential law of endurance tests. Proceedings of ASTM 10, 625–630.

4. Bischler, P.J.E., Martin, J.W., 1987. The temperature dependence of the high cycle fatigue properties of an Al–Li–Cu–Mg alloy. In: Champier, G., Dubost, B., Miannay, D., Sabatay, L. (Eds.), Proceedings of the Fourth International Aluminium–Lithium Conference. J. Phys. (Paris) 48, C3.761–C3.767.

5. Fatigue properties of 2020-T651 aluminium alloy;Bretz,1984

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1. Effect of Sintering Temperature on Phase Formation and Mechanical Properties of Al–Cu–Li Alloy Prepared from Secondary Aluminum Powders;Metals;2023-12-21

2. The Role of Lithium in the Aging Precipitation Process of Al-Zn-Mg-Cu Alloys and Its Effect on the Properties;Materials;2023-06-30

3. Aluminum-Lithium Alloys in Aircraft Structures;Materials, Structures and Manufacturing for Aircraft;2022

4. Embedded unit cell homogenization model for localized non-periodic elasto-plastic zones;Computational Mechanics;2021-08-18

5. Microstructural Characteristics of the Al Alloys: The Dissimilarities Among the 2XXX Alloys Series used in Aircraft Structures;Metallography, Microstructure, and Analysis;2020-10

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