American Journal of Mechanical and Materials Engineering

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Research on Diffusion Welding Connection of Steel/Ceramics

Received: 17 July 2023    Accepted: 3 August 2023    Published: 22 August 2023
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Abstract

Ceramics have been widely used in engineering applications due to their excellent hardness and wear resistance. Connecting ceramics and metals into composite parts and applying them to high temperature and corrosive use bar environments not only allows for normal use in harsh environments, but also improves the service life of the materials. The connection of ceramic and metal due to the large difference in the coefficient of thermal expansion between the dissimilar materials, will produce large residual thermal stress, thus hindering the further development of ceramic/metal dissimilar materials connection. At present, diffusion welding can not only realize the connection between them, but also can effectively alleviate the residual thermal stress between ceramics and metals due to the large difference in the coefficient of thermal expansion, which has a great protective effect on ceramics, and protects the integrity of the dissimilar materials connectors. Therefore, diffusion welding is used for the connection of ceramics and metals. This paper reviews the research progress in the realization of ceramic/metal composite parts using solid-phase diffusion welding, liquid-phase diffusion welding and partially transient liquid-phase diffusion welding, and analyzes the microstructure and mechanical properties of the interface. Finally, the advantages and disadvantages of solid-phase diffusion welding, liquid-phase diffusion welding and partially transient liquid-phase diffusion welding are briefly analyzed.

DOI 10.11648/j.ajmme.20230703.11
Published in American Journal of Mechanical and Materials Engineering (Volume 7, Issue 3, September 2023)
Page(s) 22-26
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Ceramic/Metal, Solid-Phase Diffusion Welding, Liquid-Phase Diffusion Welding, Residual Thermal Stress, Transient Liquid-Phase Diffusion Welding

References
[1] Passerone A, Muolo M L. Joining technology in metal-ceramic systems [J]. Materials and Manufacturing Processes, 2000, 15 (5): 631-64.
[2] Belmonte M. Advanced ceramic materials for high temperature applications [J]. Advanced engineering materials, 2006, 8 (8): 693-703.
[3] Wang Xingxing, Wu Gang, He Peng, et al. Research progress of ceramic/metal heterogeneous brazing [J]. Rare metal materials and engineering, 2022, 51 (07): 2689-2697.
[4] Zhang Y, Chen Y K, Yu D S, et al. A review paper on effect of the welding process of ceramics and metals [J]. Journal of Materials Research and Technology, 2020, 9 (6): 16214-16236.
[5] Yan Songshan, Yang Weiran, Xie Fang, et al. Research on high temperature rolling resistance characteristics of Sn-Ag-Cu/cermet self-lubricating bearing rollers [J]. Lubrication and sealing, 2020, 45 (02): 12-16.
[6] Han Li, Gao Weichao, Kang Yong. Research status and application of ceramic/ metal diffusion bonding technology [J]. Ceramics, 2017 (04): 14-19.
[7] Shen X, Li Y, Putchkov U A, et al. Finite-element analysis of residual stresses in Al2O3–TiC/W18Cr4V diffusion bonded joints [J]. Computational materials science, 2009, 45 (2): 407-410.
[8] Shen X, Yajiang L, Juan W, et al. Diffusion bonding of Al2O3-TiC composite ceramic and W18Cr4V high speed steel in vacuum [J]. Vacuum, 2009, 84 (3): 378-381.
[9] Wang J, Li Y, Gerasimov S A. Interfacial microstructure and strength of diffusion brazed joint between Al2O3-TiC and 9Cr1MoV steel [J]. Bulletin of Materials Science, 2007, 30: 415-419.
[10] Zhong Z, Hinoki T, Jung H C, et al. Microstructure and mechanical properties of diffusion bonded SiC/steel joint using W/Ni interlayer [J]. Materials & Design, 2010, 31 (3): 1070-1076.
[11] Huang W Q, Li Y J, Wang J, et al. Interface characteristics of Al2O3-TiC/Cr18-Ni8 diffusion-bonded joint using a Ti/Cu/Ti multi-interlayer [J]. Kovove Mater, 2010, 48: 271-275.
[12] Huang Wanqun, Li Yajiang, Wang Juan, et al. Microstructure of diffusion bonding interface between Al2O3-TiC composite ceramics and Q235 steel [J]. Journal of Welding, 2010, 31 (08): 101-104+118.
[13] Huang W Q, Li Y J, Wang J. Microstructural characterization and phase constituents near the interfaces of TiC-Al2O3/Q235 diffusion bonds [J]. KOVOVE MATERIALYMETALLIC MATERIALS, 2010, 48: 173-177.
[14] Weiqi Y, Jincheng L, Run A, et al. High shear strength and ductile ZrC–SiC/austenitic stainless steel joints bonded with Ti/Ni foam interlayer [J]. Ceramics International, 2020, 46 (3): 3036-3042.
[15] Wu Mingfang, Liu Fei, Wang Fengjiang, et al. Joint formation behavior and strength of Ti (C,N)-Al2O3 by liquid phase diffusion bonding with auxiliary pulse current [J]. Journal of Welding, 2015, 36 (09): 1-4+113.
[16] Hao Ci, Liu Fei, Li Yuan, et al. Study on the microstructure and joint strength of Ti (C,N)-Al2O3 and 40Cr welding interface [J]. Journal of Jiangsu University of Science and Technology (Natural Science Edition), 2018, 32 (06): 774-777.
[17] Cook G O, Sorensen C D. Partial Transient Liquid-Phase Bonding, Part I: A Novel Selection Procedure for Determining Ideal Interlayer Combinations, Validated Against Al2O3 PTLP Bonding Experience [J]. Metallurgical and Materials Transactions A, 2013, 44: 5732-5753.
[18] Tillmann W, Schaak C, Pfeiffer J. Reactive partial transient liquid phase bonding (R-PTLPB) of YSZ to Crofer22APU using Nickel and Copper-Nickel as core interlayers [J]. Mater Sci Technol, 2015: 156-178.
[19] Jincheng L, Bangyang X, Lili X, et al. Partial transient liquid phase diffusion bonding of ZrC-SiC and 304 stainless steel by Ti/Ni interlayer: Microstructure and properties [J]. Journal of the European Ceramic Society, 2022, 42 (9): 3708-3719.
[20] Li Jia. Research on the bonding process and related theory of TiC cermet and 304 stainless steel [D]. Chongqing University, 2016: 73-93.
[21] Huang L, Sheng G, Li J, et al. Partial transient-liquid-phase bonding of TiC cermet to stainless steel using impulse pressuring with Ti/Cu/Nb interlayer [J]. Journal of Central South University, 2018, 25 (5): 1025-1032.
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  • APA Style

    Yuqiang Liu, Yan Zhang, Jianping Zhou, Daqian Sun, Hongmei Li. (2023). Research on Diffusion Welding Connection of Steel/Ceramics. American Journal of Mechanical and Materials Engineering, 7(3), 22-26. https://doi.org/10.11648/j.ajmme.20230703.11

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    ACS Style

    Yuqiang Liu; Yan Zhang; Jianping Zhou; Daqian Sun; Hongmei Li. Research on Diffusion Welding Connection of Steel/Ceramics. Am. J. Mech. Mater. Eng. 2023, 7(3), 22-26. doi: 10.11648/j.ajmme.20230703.11

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    AMA Style

    Yuqiang Liu, Yan Zhang, Jianping Zhou, Daqian Sun, Hongmei Li. Research on Diffusion Welding Connection of Steel/Ceramics. Am J Mech Mater Eng. 2023;7(3):22-26. doi: 10.11648/j.ajmme.20230703.11

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  • @article{10.11648/j.ajmme.20230703.11,
      author = {Yuqiang Liu and Yan Zhang and Jianping Zhou and Daqian Sun and Hongmei Li},
      title = {Research on Diffusion Welding Connection of Steel/Ceramics},
      journal = {American Journal of Mechanical and Materials Engineering},
      volume = {7},
      number = {3},
      pages = {22-26},
      doi = {10.11648/j.ajmme.20230703.11},
      url = {https://doi.org/10.11648/j.ajmme.20230703.11},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajmme.20230703.11},
      abstract = {Ceramics have been widely used in engineering applications due to their excellent hardness and wear resistance. Connecting ceramics and metals into composite parts and applying them to high temperature and corrosive use bar environments not only allows for normal use in harsh environments, but also improves the service life of the materials. The connection of ceramic and metal due to the large difference in the coefficient of thermal expansion between the dissimilar materials, will produce large residual thermal stress, thus hindering the further development of ceramic/metal dissimilar materials connection. At present, diffusion welding can not only realize the connection between them, but also can effectively alleviate the residual thermal stress between ceramics and metals due to the large difference in the coefficient of thermal expansion, which has a great protective effect on ceramics, and protects the integrity of the dissimilar materials connectors. Therefore, diffusion welding is used for the connection of ceramics and metals. This paper reviews the research progress in the realization of ceramic/metal composite parts using solid-phase diffusion welding, liquid-phase diffusion welding and partially transient liquid-phase diffusion welding, and analyzes the microstructure and mechanical properties of the interface. Finally, the advantages and disadvantages of solid-phase diffusion welding, liquid-phase diffusion welding and partially transient liquid-phase diffusion welding are briefly analyzed.},
     year = {2023}
    }
    

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  • TY  - JOUR
    T1  - Research on Diffusion Welding Connection of Steel/Ceramics
    AU  - Yuqiang Liu
    AU  - Yan Zhang
    AU  - Jianping Zhou
    AU  - Daqian Sun
    AU  - Hongmei Li
    Y1  - 2023/08/22
    PY  - 2023
    N1  - https://doi.org/10.11648/j.ajmme.20230703.11
    DO  - 10.11648/j.ajmme.20230703.11
    T2  - American Journal of Mechanical and Materials Engineering
    JF  - American Journal of Mechanical and Materials Engineering
    JO  - American Journal of Mechanical and Materials Engineering
    SP  - 22
    EP  - 26
    PB  - Science Publishing Group
    SN  - 2639-9652
    UR  - https://doi.org/10.11648/j.ajmme.20230703.11
    AB  - Ceramics have been widely used in engineering applications due to their excellent hardness and wear resistance. Connecting ceramics and metals into composite parts and applying them to high temperature and corrosive use bar environments not only allows for normal use in harsh environments, but also improves the service life of the materials. The connection of ceramic and metal due to the large difference in the coefficient of thermal expansion between the dissimilar materials, will produce large residual thermal stress, thus hindering the further development of ceramic/metal dissimilar materials connection. At present, diffusion welding can not only realize the connection between them, but also can effectively alleviate the residual thermal stress between ceramics and metals due to the large difference in the coefficient of thermal expansion, which has a great protective effect on ceramics, and protects the integrity of the dissimilar materials connectors. Therefore, diffusion welding is used for the connection of ceramics and metals. This paper reviews the research progress in the realization of ceramic/metal composite parts using solid-phase diffusion welding, liquid-phase diffusion welding and partially transient liquid-phase diffusion welding, and analyzes the microstructure and mechanical properties of the interface. Finally, the advantages and disadvantages of solid-phase diffusion welding, liquid-phase diffusion welding and partially transient liquid-phase diffusion welding are briefly analyzed.
    VL  - 7
    IS  - 3
    ER  - 

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Author Information
  • School of Mechanical Engineering, Xinjiang University, Wulumuqi, China

  • School of Mechanical Engineering, Xinjiang University, Wulumuqi, China

  • School of Mechanical Engineering, Xinjiang University, Wulumuqi, China

  • Key Laboratory of Automobile Materials, School of Materials Science and Engineering, Jilin University, Changchun, China

  • Key Laboratory of Automobile Materials, School of Materials Science and Engineering, Jilin University, Changchun, China

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