材料科学
钎焊
高温合金
镍
冶金
热解炭
碳纤维
微观结构
复合材料
化学工程
合金
热解
复合数
工程类
作者
Jinhua Lu,Wenqi Liu,Binyao Cao,Zhaofan Zhou,Yi Cao,Ruoxi Zhang,Shouyang Zhang,Ruimei Yuan,Hejun Li
标识
DOI:10.1016/j.matchar.2024.114502
摘要
C/C composites possess both lightweight and high-strength properties, and joining them with superalloys can reduce the mass of the joints and construct ultra-high heat flux lightweight cooling components, which are widely used in the hot end of a nuclear reactor. Nonetheless, significant residual stress caused by thermal mismatch is the counterpart when brazing C/C composites and metals. This increases the initiation of the joint cracks. In this study, a new method of deposition pyrolytic carbon (PyC) on the Mo-Ni skeleton to help braze C/C composites and nickel-based superalloys was proposed. With the protection of a uniformly distributed PyC layer, the corrosion and dissolution of the metal skeleton by the brazing material can be effectively mitigated. The low coefficient of thermal expansion (CTE) of the PyC layer mitigates the thermal mismatch of the joint, while the high plastic deformation capacity of the skeleton effectively mitigates the residual stresses. The two mechanisms cooperate to increase joint strength. To enhance the chemical bonding of the joint, a modification of Ti powder was implemented. The synergistic reinforcement of PyC-modified Mo-Ni foam (C-MN) and Ti powder-modified brazing material was utilized to effectively enhance the shear strength of the joint to ∼41 MPa, a 163 % improvement over unmodified joints. This work can provide a new idea for the preparation of high-performance C/C composites and joining materials for metals. • PyC was deposited on Mo-Ni skeleton to isolate erosion reactions. • Skeleton was used to regulate phase distribution in C/C-GH3230 joints. • Mo-Ni skeleton deposited PyC was used to relief stress through plastic deformation. • Ti powder and modified skeleton synergistic brazing C/C-GH3230 joints.
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