Ultrasonic-assisted liquid phase diffusion bonding of Al alloys under low temperature and pressure for high-temperature resistance applications

[Display omitted] •A novel ultrasonic-assisted liquid phase diffusion bonding method was proposed to obtain a high-strength joint of Al alloy at 300 °C.•The ultrasonic vibration induced a co-diffusion of Sn and Zn elements resulted in bonding interfaces of Al/Al and Al/Al2O3/Sn/Al2O3/Al dominated by...

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Published inMaterials & design Vol. 225; p. 111544
Main Authors Zhao, Pu, Li, Zhengwei, Xia, Yuanhang, Xu, Zhiwu, Leng, Xuesong, Yan, Jiuchun
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2023
Elsevier
Subjects
6063Al alloy
Diffusion bonding
High temperature resistance
Tensile strength
Ultrasonic vibration
6063Al alloy
High temperature resistance
Diffusion bonding
Ultrasonic vibration
Tensile strength
Online AccessGet full text
ISSN0264-1275
1873-4197
DOI10.1016/j.matdes.2022.111544

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Abstract [Display omitted] •A novel ultrasonic-assisted liquid phase diffusion bonding method was proposed to obtain a high-strength joint of Al alloy at 300 °C.•The ultrasonic vibration induced a co-diffusion of Sn and Zn elements resulted in bonding interfaces of Al/Al and Al/Al2O3/Sn/Al2O3/Al dominated by an Sn-embedded ceramic-shell structure.•The U-LPD joint with a strength coefficient of 89.9% was obtained at the lowest bonding temperature among all current diffusion bonding processes of Al alloys. A joint obtained at relatively low temperatures and serving under high temperatures has been a longstanding goal for aluminum alloy heat sinks used in extreme environments. In this work, 6063Al alloy joints were fabricated in the air by ultrasonic-assisted liquid phase diffusion bonding with an Sn-9Zn interlayer at 300 °C. The Sn element provided the possibility of diffusion bonding of Al alloys at low temperatures, and the Zn element and ultrasonic vibration could accelerate the diffusion of Sn in Al alloys. Ultrasonic vibration induced co-diffusion of the Sn and Zn elements through the grain boundary into the Al parent alloy during bonding, and the bonding interfaces of Al/Al and Al/Al2O3/Sn/Al2O3/Al were dominated by the Sn-embedded ceramic-shell structures, ensuring high joint strength at high working temperatures. A joint with a strength coefficient of 89.9 % was obtained at the lowest bonding temperature among all the current diffusion bonding processes for Al alloys. Subsequently, the formation mechanism of the joints, the co-diffusion behaviors of the Sn and Zn elements, and the evolution of the interface structure at different test temperatures were discussed.
AbstractList A joint obtained at relatively low temperatures and serving under high temperatures has been a longstanding goal for aluminum alloy heat sinks used in extreme environments. In this work, 6063Al alloy joints were fabricated in the air by ultrasonic-assisted liquid phase diffusion bonding with an Sn-9Zn interlayer at 300 °C. The Sn element provided the possibility of diffusion bonding of Al alloys at low temperatures, and the Zn element and ultrasonic vibration could accelerate the diffusion of Sn in Al alloys. Ultrasonic vibration induced co-diffusion of the Sn and Zn elements through the grain boundary into the Al parent alloy during bonding, and the bonding interfaces of Al/Al and Al/Al2O3/Sn/Al2O3/Al were dominated by the Sn-embedded ceramic-shell structures, ensuring high joint strength at high working temperatures. A joint with a strength coefficient of 89.9 % was obtained at the lowest bonding temperature among all the current diffusion bonding processes for Al alloys. Subsequently, the formation mechanism of the joints, the co-diffusion behaviors of the Sn and Zn elements, and the evolution of the interface structure at different test temperatures were discussed.
[Display omitted] •A novel ultrasonic-assisted liquid phase diffusion bonding method was proposed to obtain a high-strength joint of Al alloy at 300 °C.•The ultrasonic vibration induced a co-diffusion of Sn and Zn elements resulted in bonding interfaces of Al/Al and Al/Al2O3/Sn/Al2O3/Al dominated by an Sn-embedded ceramic-shell structure.•The U-LPD joint with a strength coefficient of 89.9% was obtained at the lowest bonding temperature among all current diffusion bonding processes of Al alloys. A joint obtained at relatively low temperatures and serving under high temperatures has been a longstanding goal for aluminum alloy heat sinks used in extreme environments. In this work, 6063Al alloy joints were fabricated in the air by ultrasonic-assisted liquid phase diffusion bonding with an Sn-9Zn interlayer at 300 °C. The Sn element provided the possibility of diffusion bonding of Al alloys at low temperatures, and the Zn element and ultrasonic vibration could accelerate the diffusion of Sn in Al alloys. Ultrasonic vibration induced co-diffusion of the Sn and Zn elements through the grain boundary into the Al parent alloy during bonding, and the bonding interfaces of Al/Al and Al/Al2O3/Sn/Al2O3/Al were dominated by the Sn-embedded ceramic-shell structures, ensuring high joint strength at high working temperatures. A joint with a strength coefficient of 89.9 % was obtained at the lowest bonding temperature among all the current diffusion bonding processes for Al alloys. Subsequently, the formation mechanism of the joints, the co-diffusion behaviors of the Sn and Zn elements, and the evolution of the interface structure at different test temperatures were discussed.
ArticleNumber 111544
Author Yan, Jiuchun
Leng, Xuesong
Xu, Zhiwu
Zhao, Pu
Li, Zhengwei
Xia, Yuanhang
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Keywords 6063Al alloy
High temperature resistance
Diffusion bonding
Ultrasonic vibration
Tensile strength
Language English
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  article-title: Structure and morphology of aluminium-oxide films formed by thermal oxidation of aluminium
  publication-title: Thin Solid Films
  doi: 10.1016/S0040-6090(02)00787-3
– volume: 67
  start-page: 17
  year: 2012
  ident: 10.1016/j.matdes.2022.111544_b0075
  article-title: Characterisation of Ga-coated and Ga-brazed aluminium
  publication-title: Mater Charact
  doi: 10.1016/j.matchar.2012.02.013
SSID ssj0022734
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Snippet [Display omitted] •A novel ultrasonic-assisted liquid phase diffusion bonding method was proposed to obtain a high-strength joint of Al alloy at 300 °C.•The...
A joint obtained at relatively low temperatures and serving under high temperatures has been a longstanding goal for aluminum alloy heat sinks used in extreme...
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StartPage 111544
SubjectTerms 6063Al alloy
Diffusion bonding
High temperature resistance
Tensile strength
Ultrasonic vibration
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  priority: 102
  providerName: Elsevier
Title Ultrasonic-assisted liquid phase diffusion bonding of Al alloys under low temperature and pressure for high-temperature resistance applications
URI https://dx.doi.org/10.1016/j.matdes.2022.111544
https://doaj.org/article/3a2d2e1c29254c31bd449b25e2b0e6ca
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