| INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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| Bonding of Silicate Glass and Aluminium Alloy Dissimilar Materials—a Review |
| CUI Qinghe, MA Lin, ZHOU Changzhuang, LIANG Jindi, SONG Yujian
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| College of Materials Science and Engineering, Shenyang Aerospace University, Shenyang 110136, China |
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Abstract Silicate glass and aluminium alloy dissimilar material joints have good applications prospect in aerospace, electronic communications, and other fields because of their excellent functions and stable mechanical properties. This paper analyses the weldability of glass and aluminium alloy, summarises and reviews the current research results of glued bonding, semi-solid bonding and welding technology of silicate glass and aluminium alloy. Additionally, the bonding mechanism of silicate glass and aluminium alloy are analysed in detail. The future research and development of dissimilar material bonding like glass and aluminium alloy are also discussed. A new composite bonding process, which base on soldering and combined with external filed, may be one of the future research directions to construct high-quality bonding of silicate glass and aluminium alloy dissimilar materials.
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Published: 31 August 2021
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| Fund:National Natural Science Foundation of China (51905335,51705338),Natural Science Foundation of Liaoning Province (20180550471). |
About author:: Qinghe Cui received his bachelor degree in engineering from Shenyang Aerospace University in June 2019. He is currently pursuing his master’s degree at the Institute of Materials Science and Engineering, Shenyang Aerospace University under the supervision of Associate Professor Ma Lin. His research has focused on research of advanced ultrasonic-assisted bonding technology.
Lin Ma is an associate professor and postgraduate tutor at the School of Materials Science and Engineering, Shenyang Aerospace University. In 2015, she obtained her Ph.D. in material processing engineering from Harbin Institute of Technology. From April 2019 to present, she is a visiting scholar at the University of Queensland and University of Southern Queensland, Australia. In 2018, she was selected as one of the “Hundred, Thousand, Ten thousand” talent projects in Liaoning Pro-vince. Mainly engaged in the research of advanced ultrasonic-assisted bonding technology. In recent years, more than 40 papers have been published in the research field of ultrasonic-assisted brazing, friction stir welding and diffusion welding. |
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2021, Vol. 35 
