期刊
COATINGS
卷 13, 期 3, 页码 -出版社
MDPI
DOI: 10.3390/coatings13030610
关键词
2219 aluminum alloy; wire-arc additive manufacturing; heat treatment; microstructure; mechanical property
In this study, the effect of heat-treatment parameters on the mechanical properties of aluminum alloy components was optimized using the Taguchi method. The results showed that the solution temperature had the most influential effect on ultimate tensile strength and yielding strength, while aging time had the most significant effect on elongation. After optimized T6 heat treatment, microhardness and strength properties were greatly improved. The strengthening mechanism of this additively fabricated aluminum alloy was investigated through microstructural analysis.
Wire-arc additive manufacturing has generated significant interest in the aerospace industry for the fabrication of large aluminum alloy components such as alloy 2219 (Al-6.3Cu). However, its application is limited by the low strength of the deposited parts. In this study, the effect of heat-treatment parameters, including solution temperature, solution time, aging temperature, and aging time, on the mechanical properties was optimized by using the Taguchi method. The results show that the solution temperature is the most influential factor on ultimate tensile strength and yielding strength, while the aging time had the most significant effect on elongation. Thereafter, the best control factor for the maximum response variable was obtained. Microhardness and strength properties were greatly improved after optimized T6 heat treatment. The strengthening mechanism of this additively fabricated Al-6.3Cu alloy was investigated by microstructural analysis.
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