Effects of non-isothermal aging on mechanical properties, corrosion behavior and microstructures of Al-Cu-Mg-Si alloy

Effects of non-isothermal aging (NIA) treatments on the mechanical properties, intergranular corrosion (IGC) and microstructures of Al-Cu-Mg-Si alloy were investigated by tensile test, intergranular corrosion test, electrochemical analysis, optical microscopy and transmission electron microscopy. Co...

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Bibliographic Details
Published in:Journal of alloys and compounds 2020-04, Vol.819, p.152960, Article 152960
Main Authors: Zhan, Xin, Tang, Jianguo, Li, Huizhong, Liang, Xiaopeng, Lu, Yunfei, Che, Yixuan, Tu, Wenbin, Zhang, Yidan
Format: Article
Language:English
Subjects:
Aging
Aging (metallurgy)
Al-Cu-Mg-Si alloy
Aluminum base alloys
Chemical precipitation
Copper
Copper base alloys
Corrosion effects
Corrosion resistance
Corrosion resistant alloys
Corrosion tests
Electrochemical analysis
Grain boundaries
Heating rate
Intergranular corrosion
Intergranular corrosion resistance
Magnesium
Mechanical properties
Mechanical property
Microscopy
Microstructure
Non-isothermal aging
Optical microscopy
Precipitates
Silicon base alloys
Tensile strength
Tensile tests
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Summary:Effects of non-isothermal aging (NIA) treatments on the mechanical properties, intergranular corrosion (IGC) and microstructures of Al-Cu-Mg-Si alloy were investigated by tensile test, intergranular corrosion test, electrochemical analysis, optical microscopy and transmission electron microscopy. Compared with isothermal peak-aging (T6) treatment, the NIA treatments effectively improve the intergranular corrosion resistance by narrowing precipitation free zones (PFZ) and breaking the continuous distribution of precipitates on the grain boundaries. Under NIA treatments, with the increase of heating rate, the width of PFZ decreases induces the improvement of intergranular corrosion resistance. The mechanical properties of NIA treatment could be enhanced by adjusting the heating rate. The tensile strength and yield strength after NIA treatment with a heating rate of 20 °C/h are increased 1.5% and 5.8% than that after T6 treatment, respectively, which is ascribed to finer intra-grain precipitates. Reasonably, the mechanical properties and intergranular corrosion resistance could be improved simultaneously by adjusting the heating rate of NIA treatments. •Al-Cu-Mg-Si alloys with various microstructures were prepared by non-isothermal aging treatments.•The microstructures have a great effect on the mechanical properties and intergranular corrosion resistance of the alloy.•The NIA treatments can effectively improve the intergranular corrosion resistance of Al-Cu-Mg-Si alloys.•The mechanical properties of the Al-Cu-Mg-Si alloys can be tuned by adjusting the heating rate of NIA treatments.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2019.152960