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SiC陶瓷真空钎焊接头的组织及性能分析
引用本文:祝鑫, 石浩江, 赵毅, 张瑞谦, 商佳程, 李鸣, 颜家振. SiC陶瓷真空钎焊接头的组织及性能分析[J]. 真空科学与技术学报, 2019, 39(7): 566-570. DOI: 10.13922/j.cnki.cjovst.2019.07.07
作者姓名:祝鑫  石浩江  赵毅  张瑞谦  商佳程  李鸣  颜家振
作者单位:1.1. 四川大学机械工程学院 成都 610065
基金项目:四川省科技计划应用基础计划项目 (2016JY0211)
摘    要:采用BNi-5钎料对SiC陶瓷进行真空钎焊, 获得了力学性能良好的SiC钎焊接头, 并对焊缝的微观结构和形成过程进行了分析。研究结果表明, Ni基钎料与SiC母材发生反应生成层状界面反应层结构, 所形成的SiC钎焊接头钎缝微观形貌可以表述为:SiC母材/石墨+Ni2Si/Ni2Si/石墨+Ni2Si/Cr3Ni2SiC/Ni+Cr3Ni5Si2/Cr3Ni2SiC/石墨+Ni2Si/Ni2Si/石墨+Ni2Si/SiC母材。所得SiC钎焊接头常温力学性能较好, 平均钎焊接头剪切强度可达到124 MPa。Ni基钎料钎焊SiC陶瓷接头的断裂位置位于钎料与陶瓷基体间的界面反应层, 主要原因是界面反应层中Ni2Si和Cr3Ni2SiC等脆性化合物在钎焊接头拉伸变形过程中会产生应力集中, 在残余钎焊应力的共同作用下钎焊接头发生断裂。

关 键 词:Ni基钎料  真空钎焊  SiC陶瓷  核反应堆包壳管
收稿时间:2019-03-03

Microstructures and Mechanical Properties of Vacuum Brazed SiC Ceramics Joint
Zhu Xin, Shi Haojiang, Zhao Yi, Zhang Ruiqian, Shang Jiacheng, Li Ming, Yan Jiazhen. Microstructures and Mechanical Properties of Vacuum Brazed SiC Ceramics Joint[J]. CHINESE JOURNAL VACUUM SCIENCE AND TECHNOLOGY, 2019, 39(7): 566-570. DOI: 10.13922/j.cnki.cjovst.2019.07.07
Authors:Zhu Xin  Shi Haojiang  Zhao Yi  Zhang Ruiqian  Shang Jiacheng  Li Ming  Yan Jiazhen
Affiliation:1.1. School of Manufacturing Science and Engineering, Sichuan University, Chengdu 610065, China
Abstract:Two pieces of SiC (10 mm×10 mm×5 mm) were brazed at 1180℃ for 10 min in vacuum with BNi-5 brazing paste.The microstructures, phases and mechanical properties of the brazed joint were characterized with scanning electron microscopy, energy dispersive spectroscopy and shear strength measurement.The brazed seam,~10 mm×8 mm×80 μm, formed between two 25 μm thick interfacial reaction layers.The interfacial layer comprised dominant Ni2Si, a small amount of Ni-Cr solid solution and a little graphite; the brazed seam consisted of Cr3Ni2Si, Ni and Cr3Ni5Si2.The average shear strength, measured at room temperature, reached 124 MPa.The fracture test results show that all fractures occurred parallel to and in either of the boundary regions between the seam's central-plane and interfacial layers, possibly because a combination of huge residual stress and the strong, highly localized stress, generated in tensile deformation of brittle Ni2Si and Cr3Ni2SiC phases in the interfacial layer.
Keywords:Ni-based filler metal  Vacuum brazing  SiC ceramics  Nuclear reactor cladding tube
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