Cryogenic thermal conductivity of 7050 aluminum alloy subjected to different heat treatments

•Cryogenic thermal conductivity of Al 7050 after combined heat-cryogenic treatment was measured.•Cryogenic thermal conductivity was increased by aging while decreased by cryogenic treatment.•Al-Cu compound precipitates induced by cryogenic treatment were quite distinct from aging.•Mechanism of cryog...

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Bibliographic Details
Published in:Cryogenics (Guildford) 2021-06, Vol.116, p.103305, Article 103305
Main Authors: Weng, Zeju, Xu, Xiafan, Yang, Biao, Gu, Kaixuan, Chen, Liubiao, Wang, Junjie
Format: Article
Language:English
Subjects:
7050 aluminum alloy
Aging
Aging (metallurgy)
Aluminum alloys
Aluminum base alloys
Copper
Cryogenic
Cryogenic engineering
Cryogenic treatment
Deep cryogenic treatment
Dislocation density
Distortion
Heat conductivity
Heat transfer
Heat treatment
High strength alloys
Low temperature
Point defects
Precipitates
Thermal conductivity
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Summary:•Cryogenic thermal conductivity of Al 7050 after combined heat-cryogenic treatment was measured.•Cryogenic thermal conductivity was increased by aging while decreased by cryogenic treatment.•Al-Cu compound precipitates induced by cryogenic treatment were quite distinct from aging.•Mechanism of cryogenic treatment can be studied via thermal conductivity measurement. The cryogenic thermal conductivity of high-strength 7050 aluminum alloy subjected to the processes with different combinations of solution, aging and deep cryogenic treatment, was measured by a one-dimensional steady-state thermal conduction method. The microstructure evolution of this alloy after different treatments was also characterized to investigate the changes in thermal conductivity. The results showed that the thermal conductivity of aluminum alloy was approximately linearly reduced with the decrease of temperature in general. Under the effects of different treatments, it was found that the thermal conductivity at different temperatures was sharply decreased by 30% after solution. Deep cryogenic treatment further decreased the thermal conductivity when it was conducted after solution. However, the conduction of aging increased the thermal conductivity after solution or solution-deep cryogenic treatment. Intensive lattice distortion and abundant of point defects that enhanced the electro scattering were the main reasons for decreasing the thermal conductivity after solution. The relatively large size of Al-Cu precipitates and increased dislocation density contributed to the further decrease of thermal conductivity after deep cryogenic treatment. The precipitation of a large number of ultra-fine secondary phase particles after aging increased the thermal conductivity by sufficiently releasing the lattice distortion. This work also provided an efficient method for investigating the mechanisms of deep cryogenic treatment on aluminum alloy by studying the thermal conductivity at low temperatures.
ISSN:0011-2275
1879-2235
DOI:10.1016/j.cryogenics.2021.103305