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材料导报  2019, Vol. 33 Issue (Z2): 198-201    
  无机非金属及其复合材料 |
氮化硅陶瓷的连接工艺以及钎料研究进展
郭乐扬
上海电机学院,上海 201306
Research Progress on Solder and Brazing Process of Silicon Nitride Ceramics
GUO Leyang
Shanghai Dianji University, Shanghai 201306
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摘要 氮化硅陶瓷由于其耐磨、耐高温、硬度高、热稳定性和抗腐蚀性好等优良性能,在宇航、能源等领域均有重要的应用。但是其存在脆性大、韧性差等缺点,需要采用连接技术制备陶瓷/金属复合构件来解决。目前常用的陶瓷连接方式包括钎焊、固相扩散连接、玻璃连接、部分瞬间液相连接,选择合适的钎焊方式以及钎料是提高接头强度的关键。制备陶瓷/金属复合构件既可以利用氮化硅陶瓷材料本身的优异性能,又可使构件具备金属材料良好的塑性和韧性,满足现代工程应用的需要。本文介绍了常用的陶瓷连接方法以及目前氮化硅陶瓷钎料的研究进展。
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郭乐扬
关键词:  氮化硅陶瓷  陶瓷连接方式  陶瓷钎焊  钎料    
Abstract: Silicon nitride ceramics have important applications in many fields such as aerospace and energy because of their excellent properties such as wear resistance, high temperature resistance, high hardness, high thermal stability and corrosion resistance. However, the defects such as high brittleness and poor toughness need to be solved by using connection technology to prepare ceramic/metal composite. At present, there are many common ceramic connections, brazing, solid-phase diffusion, glass connection and the partially transient liquid phase-diffusion bonding, the selection of appropriate brazing mode and solder is an important factor to improve the strength of the final joint. In this way, it can not only make use of the excellent properties of silicon nitride ceramics, but also have the good plasticity and toughness of metal materials, meeting the needs of modern engineering application. The common ceramic connection methods and the research progress of silicon nitride solder are compared.
Key words:  Si3N4 ceramic    ceramic connection mode    ceramic brazing    solder
               出版日期:  2019-11-25      发布日期:  2019-11-25
ZTFLH:  TG454  
通讯作者:  1139103282@qq.com   
作者简介:  郭乐扬,现为上海电机大学材料学院本科生,目前研究领域为材料科学与工程。
引用本文:    
郭乐扬. 氮化硅陶瓷的连接工艺以及钎料研究进展[J]. 材料导报, 2019, 33(Z2): 198-201.
GUO Leyang. Research Progress on Solder and Brazing Process of Silicon Nitride Ceramics. Materials Reports, 2019, 33(Z2): 198-201.
链接本文:  
http://www.mater-rep.com/CN/  或          http://www.mater-rep.com/CN/Y2019/V33/IZ2/198
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