Brazing of Ti-coated SiC using a CoFeCrNiCu high entropy alloy filler via electric field-assisted sintering

Gang Wang; Yihe Liu; Miao Wang; Yunlong Yang; Yu Zhao; Rujie He; Caiwang Tan; Wei Wang; Xiaobing Zhou

doi:10.1016/j.jmrt.2023.02.134

Brazing of Ti-coated SiC using a CoFeCrNiCu high entropy alloy filler via electric field-assisted sintering

Gang Wang, Yihe Liu, Miao Wang^*, Yunlong Yang, Yu Zhao, Rujie He^*, Caiwang Tan, Wei Wang, Xiaobing Zhou^*

^*此作品的通讯作者

先进结构技术研究院

科研成果: 期刊稿件 › 文章 › 同行评审

12 引用（Scopus）

摘要

Electric field-assisted sintering technology (FAST) was used to join SiC ceramic by using a CoFeCrNiCu high-entropy alloy filler. A thin Ti film was deposited on SiC surface by physical vapor deposition to reduce the residual thermal stress in the joint. The microstructure, bending strength, and bonding mechanism were systematically investigated. It was found that a discontinuous TiC layer could be formed at the interface and the interfacial reaction products changed with different brazing temperatures. A joint with a bending strength of 72 MPa was achieved at 1200 °C, which is 73% higher than that of the SiC brazed without Ti coating. This work provides a new insight in the interfacial design of ceramic brazing with high mechanical properties.

源语言	英语
页（从-至）	5142-5151
页数	10
期刊	Journal of Materials Research and Technology
卷	23
DOI	https://doi.org/10.1016/j.jmrt.2023.02.134
出版状态	已出版 - 1 3月 2023

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title = "Brazing of Ti-coated SiC using a CoFeCrNiCu high entropy alloy filler via electric field-assisted sintering",

abstract = "Electric field-assisted sintering technology (FAST) was used to join SiC ceramic by using a CoFeCrNiCu high-entropy alloy filler. A thin Ti film was deposited on SiC surface by physical vapor deposition to reduce the residual thermal stress in the joint. The microstructure, bending strength, and bonding mechanism were systematically investigated. It was found that a discontinuous TiC layer could be formed at the interface and the interfacial reaction products changed with different brazing temperatures. A joint with a bending strength of 72 MPa was achieved at 1200 °C, which is 73% higher than that of the SiC brazed without Ti coating. This work provides a new insight in the interfacial design of ceramic brazing with high mechanical properties.",

keywords = "Brazing, Electric field-assisted sintering, High entropy alloy, Interfacial reaction, SiC",

author = "Gang Wang and Yihe Liu and Miao Wang and Yunlong Yang and Yu Zhao and Rujie He and Caiwang Tan and Wei Wang and Xiaobing Zhou",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

month = mar,

day = "1",

doi = "10.1016/j.jmrt.2023.02.134",

language = "English",

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TY - JOUR

T1 - Brazing of Ti-coated SiC using a CoFeCrNiCu high entropy alloy filler via electric field-assisted sintering

AU - Wang, Gang

AU - Liu, Yihe

AU - Wang, Miao

AU - Yang, Yunlong

AU - Zhao, Yu

AU - He, Rujie

AU - Tan, Caiwang

AU - Wang, Wei

AU - Zhou, Xiaobing

PY - 2023/3/1

Y1 - 2023/3/1

N2 - Electric field-assisted sintering technology (FAST) was used to join SiC ceramic by using a CoFeCrNiCu high-entropy alloy filler. A thin Ti film was deposited on SiC surface by physical vapor deposition to reduce the residual thermal stress in the joint. The microstructure, bending strength, and bonding mechanism were systematically investigated. It was found that a discontinuous TiC layer could be formed at the interface and the interfacial reaction products changed with different brazing temperatures. A joint with a bending strength of 72 MPa was achieved at 1200 °C, which is 73% higher than that of the SiC brazed without Ti coating. This work provides a new insight in the interfacial design of ceramic brazing with high mechanical properties.

AB - Electric field-assisted sintering technology (FAST) was used to join SiC ceramic by using a CoFeCrNiCu high-entropy alloy filler. A thin Ti film was deposited on SiC surface by physical vapor deposition to reduce the residual thermal stress in the joint. The microstructure, bending strength, and bonding mechanism were systematically investigated. It was found that a discontinuous TiC layer could be formed at the interface and the interfacial reaction products changed with different brazing temperatures. A joint with a bending strength of 72 MPa was achieved at 1200 °C, which is 73% higher than that of the SiC brazed without Ti coating. This work provides a new insight in the interfacial design of ceramic brazing with high mechanical properties.

KW - Brazing

KW - Electric field-assisted sintering

KW - High entropy alloy

KW - Interfacial reaction

KW - SiC

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U2 - 10.1016/j.jmrt.2023.02.134

DO - 10.1016/j.jmrt.2023.02.134

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SN - 2238-7854

VL - 23

SP - 5142

EP - 5151

JO - Journal of Materials Research and Technology

JF - Journal of Materials Research and Technology

ER -

Brazing of Ti-coated SiC using a CoFeCrNiCu high entropy alloy filler via electric field-assisted sintering

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