Active Brazing of Silicon Carbide with Rapidly Quenched TiZrCuBe Filler Metal

被引:0
|
作者
I. V. Fedotov
A. N. Suchkov
A. A. Ivannikov
E. R. Chernavskaya
P. S. Dzhumaev
O. N. Sevryukov
机构
[1] National Research Nuclear University MEPhI (Moscow Engineering Physics Institute),
来源
Journal of Materials Engineering and Performance | 2023年 / 32卷
关键词
brazing; filler metal; microstructure; silicon carbide; shear strength;
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中图分类号
学科分类号
摘要
The Zr35Ti25Cu12Be28 rapidly quenched filler metal has been used to obtain a durable and reliable SiC/SiC brazed joint. With the SEM, EDX and XRD methods, the following phases were found and confirmed in the brazed seam: (Zr,Ti)2Cu, ZrBe2, TiBe2. The microstructural studies have revealed the absence of the noticeable reaction layer in the brazed joint. The shear strength tests have shown that the SiC/SiC joint failure occurred by a brittle failure with a formation of a crack and its propagation through the silicon carbide and the brazed joint/SiC interface. But despite this high shear strength of 201 MPa was obtained with 810 °C, 10 min brazing mode. Unbrazing tests with heating to 1450 °C of SiC/SiC joints indicated that the dissolution of the silicon carbide proceeded and a formation of the ZrSi matrix with TiC, ZrC inclusions occurs in the brazed joint, which is the consequence of an increasing filler metal reactivity with temperature.
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页码:4691 / 4701
页数:10
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