Simultaneously enhanced mechanical strength and inter-granular corrosion resistance in high strength 7075 Al alloy

The strength and corrosion resistance of 7000 series (Al-Zn-Mg-Cu) alloys seldom co-exist and are often trade-off with each other. In present study, an alternative surface nanocrystallization technique called sliding friction treatment (SFT) was adopted to successfully generate a gradient nanostruct...

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Bibliographic Details
Published in:Journal of alloys and compounds 2019-04, Vol.781, p.680-688
Main Authors: Huo, Wangtu, Hu, Jiangjiang, Cao, Huihui, Du, Yan, Zhang, Wei, Zhang, Yusheng
Format: Article
Language:English
Subjects:
Alloys
Aluminum base alloys
Chemical precipitation
Copper
Corrosion
Corrosion resistance
Corrosion resistant alloys
Design modifications
Electrochemical impedance spectroscopy
Grain boundaries
Grain refinement
Grain size
High strength alloys
Magnesium
Metal sheets
Metals and alloys
Nanocrystals
Precipitates
Sliding friction
Transmission electron microscopy
Ultimate tensile strength
Yield strength
Zinc
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Summary:The strength and corrosion resistance of 7000 series (Al-Zn-Mg-Cu) alloys seldom co-exist and are often trade-off with each other. In present study, an alternative surface nanocrystallization technique called sliding friction treatment (SFT) was adopted to successfully generate a gradient nanostructured layer on coarse-grained (CG) peak-aged AA 7075-T6 alloy sheet. The grain size on the topmost surface of SFTed sample was extremely reduced to nano-scale (average grain size: ∼56.2 nm). Excitingly, the SFTed 7075 possessed simultaneously improved mechanical strength and inter-granular corrosion (IGC) resistance relative to the CG counterpart. Specifically, both ultimate tensile strength (UTS) and yield strength (YS) of SFTed sample are even ∼ 40 MPa higher than those of untreated peak-aged CG sample. Meanwhile, the IGC test results demonstrate that the average maximum corrosion depth is considerably reduced from ∼179 μm to ∼40 μm after SFT treatment. The obviously refined grains account for the enhanced strength, while the improved IGC resistance should benefit from SFT-induced grain refinement, elimination of both grain boundary precipitates (GBPs) and precipitates free zones (PFZs) along the grain boundaries of SFT-induced nanocrystalline. Our results demonstrate that SFT processing offers a design pathway to fabricating 7000 alloys with modified strength-IGC resistance synergy. •A nano-grained layer on 7075 was fabricated by sliding friction treatment (SFT).•The SFTed 7075 exhibited superior strength-ductility combination.•The SFTed 7075 exhibited enhanced strength and inter-granular corrosion resistance.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2018.12.024