Three-dimensional graphene-reinforced Cu foam interlayer for brazing C/C composites and Nb

Three-dimensional graphene-reinforced Cu foam interlayer for brazing C/C composites and Nb

Brazing C/C composites to Nb is often associated with high residual stress in this research, which results in low-strength joints. To overcome this problem, here we report a novel type of three-dimensional graphene-reinforced Cu foam (G-Cu foam) composite fabricated using chemical vapor deposition....

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Veröffentlicht in:Carbon (New York) 2017-07, Vol.118, p.723-730
Hauptverfasser: Wang, Zeyu, Wang, Gang, Li, Manni, Lin, Jinghuang, Ma, Qiang, Zhang, Aotian, Zhong, Zhengxiang, Qi, Junlei, Feng, Jicai
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Sprache:eng
Schlagworte:
Agglomeration
Brazed joints
Carbon-carbon composites
Chemical vapor deposition
Collapse
Cooling effects
Copper
Diffusion
Graphene
Interlayers
Niobium
Plastic deformation
Residual stress
Retarding
Shear strength
Thermal expansion
Wetting
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container_end_page 730
container_issue
container_start_page 723
container_title Carbon (New York)
container_volume 118
creator Wang, Zeyu
Wang, Gang
Li, Manni
Lin, Jinghuang
Ma, Qiang
Zhang, Aotian
Zhong, Zhengxiang
Qi, Junlei
Feng, Jicai
description Brazing C/C composites to Nb is often associated with high residual stress in this research, which results in low-strength joints. To overcome this problem, here we report a novel type of three-dimensional graphene-reinforced Cu foam (G-Cu foam) composite fabricated using chemical vapor deposition. This G-Cu foam was used as an interlayer for brazing C/C composite and Nb. Results show that high-quality graphene was evenly introduced in the brazing seam without agglomeration with the help of Cu foam substrate, which has a porous structure with an interconnected 3D scaffold. Moreover, wetting analyses revealed that the obtained graphene played a key role in retarding the metal atoms diffusion and consequently impeding the collapse of the Cu foam skeleton at brazing temperature. Furthermore, the extremely low coefficient of thermal expansion (CTE) of graphene and the good plastic deformation capacity of Cu foam are both conducive to reducing the thermal residual stress during the cooling process. By exerting the synergistic strengthening effect of both graphene and Cu foam, the brazed joint was effectively enhanced. The average shear strength of the joint brazed with G-Cu foam interlayer is ∼43 MPa. [Display omitted]
doi_str_mv 10.1016/j.carbon.2017.03.099
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To overcome this problem, here we report a novel type of three-dimensional graphene-reinforced Cu foam (G-Cu foam) composite fabricated using chemical vapor deposition. This G-Cu foam was used as an interlayer for brazing C/C composite and Nb. Results show that high-quality graphene was evenly introduced in the brazing seam without agglomeration with the help of Cu foam substrate, which has a porous structure with an interconnected 3D scaffold. Moreover, wetting analyses revealed that the obtained graphene played a key role in retarding the metal atoms diffusion and consequently impeding the collapse of the Cu foam skeleton at brazing temperature. Furthermore, the extremely low coefficient of thermal expansion (CTE) of graphene and the good plastic deformation capacity of Cu foam are both conducive to reducing the thermal residual stress during the cooling process. By exerting the synergistic strengthening effect of both graphene and Cu foam, the brazed joint was effectively enhanced. The average shear strength of the joint brazed with G-Cu foam interlayer is ∼43 MPa. 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To overcome this problem, here we report a novel type of three-dimensional graphene-reinforced Cu foam (G-Cu foam) composite fabricated using chemical vapor deposition. This G-Cu foam was used as an interlayer for brazing C/C composite and Nb. Results show that high-quality graphene was evenly introduced in the brazing seam without agglomeration with the help of Cu foam substrate, which has a porous structure with an interconnected 3D scaffold. Moreover, wetting analyses revealed that the obtained graphene played a key role in retarding the metal atoms diffusion and consequently impeding the collapse of the Cu foam skeleton at brazing temperature. Furthermore, the extremely low coefficient of thermal expansion (CTE) of graphene and the good plastic deformation capacity of Cu foam are both conducive to reducing the thermal residual stress during the cooling process. By exerting the synergistic strengthening effect of both graphene and Cu foam, the brazed joint was effectively enhanced. The average shear strength of the joint brazed with G-Cu foam interlayer is ∼43 MPa. 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To overcome this problem, here we report a novel type of three-dimensional graphene-reinforced Cu foam (G-Cu foam) composite fabricated using chemical vapor deposition. This G-Cu foam was used as an interlayer for brazing C/C composite and Nb. Results show that high-quality graphene was evenly introduced in the brazing seam without agglomeration with the help of Cu foam substrate, which has a porous structure with an interconnected 3D scaffold. Moreover, wetting analyses revealed that the obtained graphene played a key role in retarding the metal atoms diffusion and consequently impeding the collapse of the Cu foam skeleton at brazing temperature. Furthermore, the extremely low coefficient of thermal expansion (CTE) of graphene and the good plastic deformation capacity of Cu foam are both conducive to reducing the thermal residual stress during the cooling process. By exerting the synergistic strengthening effect of both graphene and Cu foam, the brazed joint was effectively enhanced. 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source ScienceDirect Journals (5 years ago - present)
subjects Agglomeration
Brazed joints
Carbon-carbon composites
Chemical vapor deposition
Collapse
Cooling effects
Copper
Diffusion
Graphene
Interlayers
Niobium
Plastic deformation
Residual stress
Retarding
Shear strength
Thermal expansion
Wetting
title Three-dimensional graphene-reinforced Cu foam interlayer for brazing C/C composites and Nb
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