Mesoscopic analysis of fatigue strength property of a modified 2618 aluminum alloy

•A modified 2618 aluminum alloy is fabricated.•The fatigue crack propagation limit is absent.•The fatigue crack initiation limit exists.•There is the distinct anisotropy in the mechanical properties.•The new alloy has higher fatigue strength and lower notch sensitivity. The existence of the fatigue...

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Bibliographic Details
Published in:International journal of fatigue 2014-02, Vol.59, p.215-223
Main Authors: Zeng, Lei, Li, Zhaoyang, Che, Renqing, Shikama, Takahiro, Yoshihara, Shinji, Aiura, Tadashi, Noguchi, Hiroshi
Format: Article
Language:English
Subjects:
Aluminum alloys
Aluminum base alloys
Applied sciences
Crack arrest
Crack initiation
Crack propagation
Exact sciences and technology
Fatigue
Fatigue failure
Fatigue limit
Fatigue strength
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Microstructures
Surface layer
S–N curves
Texture
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Summary:•A modified 2618 aluminum alloy is fabricated.•The fatigue crack propagation limit is absent.•The fatigue crack initiation limit exists.•There is the distinct anisotropy in the mechanical properties.•The new alloy has higher fatigue strength and lower notch sensitivity. The existence of the fatigue limit and the effect of the generated texture in a modified 2618 aluminum alloy were investigated in this study. This alloy was fabricated by adding 1.0% excess Cu, 0.24% Mn, and 0.16% Zr to the standard composition. The fatigue limit was considered in terms of the fatigue crack initiation limit and fatigue crack propagation limit. To verify the former, the scatter of the fatigue crack initiation life in fatigue tests was discussed. To verify the latter, the results of a coaxing effect test and the scatter of the microstructural sensitive fatigue crack life were discussed. Moreover, the effect of texture on the fatigue strength property was studied by observing the initiation and growth behavior of cracks in a tensile test and a fatigue test by using the replica technique. The results showed that the fatigue crack propagation limit was absent in the modified alloy, whereas the fatigue crack initiation limit existed only in the material with un-textured microstructures. In addition, the distinct deviation in the mechanical properties of the modified alloy was attributed to the local stress-concentration at the boundary between the un-recrystallized and the recrystallized areas. Finally, a comparison with the 2618 alloy showed that the modified alloy had higher fatigue strength and lower notch sensitivity.
ISSN:0142-1123
1879-3452
DOI:10.1016/j.ijfatigue.2013.08.016