Super plasticity in a cold-welded Al-Cu joint

The technology of welding dissimilar metals at the nanoscale is of importance in the fabrication of electronics. In this work, we achieved cold welding of aluminum (Al) and copper (Cu) nanowires by simple mechanical contact without extra heating and/or voltage applied in transmission electron micros...

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Published inApplied physics letters Vol. 114; no. 6
Main Authors Gao, Jing, Wang, Kaifeng, Fu, Xiaoqian, Chen, Sijing, Zhang, Zijiao, Wang, Qiannan, Li, Jingjing, Yu, Qian
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 11.02.2019
Subjects
Aluminum
Applied physics
Cold welding
Cold working
Copper
Deformation mechanisms
Dislocations
Dissimilar metals
Elongation
Intermetallic compounds
Low pressure
Nanowires
Plastic deformation
Plastic properties
Solid solutions
Tensile tests
Transmission electron microscopy
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Abstract The technology of welding dissimilar metals at the nanoscale is of importance in the fabrication of electronics. In this work, we achieved cold welding of aluminum (Al) and copper (Cu) nanowires by simple mechanical contact without extra heating and/or voltage applied in transmission electron microscopy (TEM). During the welding process, the welding surface gradually disappeared due to the significant inter-diffusion between Al and Cu under a relatively low pressure, which resulted in the formation of an Al/Cu solid solution and Al3Cu2 intermetallic compound. The following in-situ TEM tensile test revealed that the joint displayed super plasticity with a total elongation even beyond 100%. The corresponding plastic deformation was dominated by the partial dislocation glide and grain rotation. Our results not only shed light on developing the advanced welding technology for dissimilar metals at the nanoscale but also improved the understanding of the joint deformation mechanisms.
AbstractList The technology of welding dissimilar metals at the nanoscale is of importance in the fabrication of electronics. In this work, we achieved cold welding of aluminum (Al) and copper (Cu) nanowires by simple mechanical contact without extra heating and/or voltage applied in transmission electron microscopy (TEM). During the welding process, the welding surface gradually disappeared due to the significant inter-diffusion between Al and Cu under a relatively low pressure, which resulted in the formation of an Al/Cu solid solution and Al3Cu2 intermetallic compound. The following in-situ TEM tensile test revealed that the joint displayed super plasticity with a total elongation even beyond 100%. The corresponding plastic deformation was dominated by the partial dislocation glide and grain rotation. Our results not only shed light on developing the advanced welding technology for dissimilar metals at the nanoscale but also improved the understanding of the joint deformation mechanisms.
Author Fu, Xiaoqian
Wang, Kaifeng
Yu, Qian
Gao, Jing
Chen, Sijing
Wang, Qiannan
Li, Jingjing
Zhang, Zijiao
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Snippet The technology of welding dissimilar metals at the nanoscale is of importance in the fabrication of electronics. In this work, we achieved cold welding of...
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SubjectTerms Aluminum
Applied physics
Cold welding
Cold working
Copper
Deformation mechanisms
Dislocations
Dissimilar metals
Elongation
Intermetallic compounds
Low pressure
Nanowires
Plastic deformation
Plastic properties
Solid solutions
Tensile tests
Transmission electron microscopy
Title Super plasticity in a cold-welded Al-Cu joint
URI http://dx.doi.org/10.1063/1.5084134
https://www.proquest.com/docview/2178424591
Volume 114
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