Bonding Mechanism and Microstructure of Bonded Zone of AIN Ceramics with Ti-AgCu Brazing Metal

Transactions of the Japan Welding Society Pub Date : 1900-01-01 DOI:10.2207/QJJWS.9.494

H. Okamura, Hideki Shinohara, Takao Funamoto, T. Shida

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引用次数: 8

Abstract

Metallization and bonding of AIN ceramics were made using active brazing metal (Ti-AgCu). Active brazing metal used in metallization and bonding was in paste form prepared by adding Ti powder and organic solvent in to eutectic silver brazing metal powder.Characterization and bonding mechanism of the bonded layer, and relation between the thichness of the reacted layer and bonding strength were studied.The results of this study are as follows :(1) The microstructure of the bonded layer between AIN ceramics and Ti-AgCu brazing metal is found to be TiN layer of about 0.2 to 0.8 μm in thickness at the AIN interface, a composite layer of TiC, AICu as a middle layer and Ag-Cu alloy layer at the surface side.(2) Thickness of TiN layer did not change by the amount of Ti addition in silver brazing metal but the thicness of TiCu and AlCu layers are increased with increase of Ti addition in silverbrazing metal. Activation energy of growth of TiN layer is found to be 20 kJ/mol.(3) When the amount of Ti addition is more than 15 mass%, the bonding strength is decresed and the bonded layer is broken. Because the thickness of brittle TiCu layer increases with the increase of the Ti cotent in silver brazing metal.

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AIN陶瓷与Ti-AgCu钎焊金属的结合机理及结合区微观结构

采用活性钎焊金属(Ti-AgCu)对AIN陶瓷进行了金属化和键合。通过在共晶银钎焊金属粉中加入Ti粉和有机溶剂，制备了用于金属化和键合的活性钎焊金属。研究了反应层的表征和键合机理，以及反应层厚度与键合强度的关系。研究结果表明:(1)AIN陶瓷与Ti-AgCu钎焊金属的结合层微观结构为AIN界面处厚度约0.2 ~ 0.8 μm的TiN层，为TiC复合层;(2) TiN层厚度不随银钎焊金属中Ti添加量的增加而变化，而tiu和AlCu层厚度随银钎焊金属中Ti添加量的增加而增加。(3)当Ti的加入量大于15质量%时，结合强度降低，结合层断裂。因为脆性cu层的厚度随着银钎焊中Ti含量的增加而增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Transactions of the Japan Welding Society

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