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Journal of Inorganic Materials, Volume. 37, Issue 5, 574(2022)

Combustion Synthesis of Si3N4-BN-SiC Composites by in-situ Introduction of BN and SiC

Ye ZHANG1...2, Dongxu YAO1, Kaihui ZUO1, Yongfeng XIA1, Jinwei YIN1 and Yuping ZENG1,* |Show fewer author(s)
Author Affiliations
  • 11. State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China
  • 22. Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
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    [1] D WANG W, X YAO D, B CHEN H et al. ZrSi2-MgO as novel additives for high thermal conductivity of β-Si3N4 ceramics. J. Am. Ceram. Soc., 103, 2090-2100(2020).

    [2] Y SUN S, P XIE Z, X CHEN K. Precisely controlled carbothermal synthesis of spherical β-Si3N4 granules. Ceram. Int., 46, 10879-10884(2020).

    [3] S HAMPSHIRE. Silicon nitride ceramics-review of structure, processing and properties. J. Achieve. Mater. Manuf. Eng., 24, 43-50(2007).

    [4] Q LI X, X YAO D, H ZUO K et al. Microstructure and gas permeation performance of porous silicon nitride ceramics with unidirectionally aligned channels. J. Am. Ceram. Soc., 103, 6565-6574(2020).

    [5] A KALEMTAS, G TOPATES, H OZCOBAN et al. Mechanical characterization of highly porous β-Si3N4 ceramics fabricated via partial sintering & starch addition. J. Eur. Ceram. Soc., 33, 1507-1515(2013).

    [6] G YANG J, P WU, P ZHANG Y et al. Synthesis of Si3N4 whiskers by rapid nitridation of silicon droplets. Int. J. Appl. Ceram. Technol., 17, 296-303(2020).

    [7] C MATSUNAGA, Y ZHOU, D KUSANO et al. Nitridation behavior of silicon powder compacts of various thicknesses with Y2O3 and MgO as sintering additives. Int. J. Appl. Ceram. Technol., 14, 1157-1163(2017).

    [8] Q ZHI, B WANG, S ZHAO et al. Synthesis and mechanical properties of highly porous ultrafine-grain Si3N4 ceramics via carbothermal reduction-nitridation combined with liquid phase sintering. Ceram. Int., 45, 21359-21364(2019).

    [9] Y ZHANG, X YU, H GU et al. Microstructure evolution and high-temperature mechanical properties of porous Si3N4 ceramics prepared by SHS with a small amount of Y2O3 addition. Ceram. Int., 47, 5656-5662(2021).

    [10] G CANO I, P BOROVINSKAYA I, A RODRIGUEZ M et al. Effect of dilution and porosity on self-propagating high-temperature synthesis of silicon nitride. J. Am. Ceram. Soc., 85, 2209-2211(2002).

    [11] S LOJANOVÁ, P TATARKO, Z CHLUP et al. Rare-earth element doped Si3N4/SiC micro/nano-composites—RT and HT mechanical properties. J. Eur. Ceram. Soc., 30, 1931-1944(2010).

    [12] L LI X, L ZHANG, X YIN et al. Mechanical and dielectric properties of porous Si3N4-SiC(BN) ceramic. J. Alloys Compd., 490, 40-43(2010).

    [13] J WANG S, C JIA D, H YANG Z et al. Effect of BN content on microstructures, mechanical and dielectric properties of porous BN/Si3N4 composite ceramics prepared by gel casting. Ceram. Int., 39, 4231-4237(2013).

    [14] J WANG S, H YANG Z, M DUAN X et al. Fabrication and characterization of in situ porous Si3N4-Si2N2O-BN ceramic. Int. J. Appl. Ceram. Technol., 11, 832-838(2014).

    [15] T KUSUNOSE, T SEKINO, H CHOA Y et al. Fabrication and microstructure of silicon nitride/boron nitride nanocomposites. J. Am. Ceram. Soc., 85, 2678-2688(2002).

    [16] T ZHENG Y, B LI H, T ZHOU. Microstructure and mechanical properties of h-BN-SiC ceramic composites prepared by in situ combustion synthesis. Mater. Sci. Eng. A-Struct., 540, 102-106(2012).

    [17] Y ZHANG, D YAO, K ZUO et al. Fabrication and mechanical properties of porous Si3N4 ceramics prepared via SHS. Ceram. Int., 45, 14867-14872(2019).

    [18] B LI H, T ZHENG Y, J C HAN. In-situ combustion synthesis of h-BN-SiC high-temperature ceramics. Key Eng. Mater., 353-358, 1501-1504(2007).

    [19] Y ZHANG, D YAO, K ZUO et al. Effects of N2 pressure and Si particle size on mechanical properties of porous Si3N4 ceramics prepared via SHS. J. Eur. Ceram. Soc., 40, 4454-4461(2020).

    [20] R LAI K, Y TIEN T. Kinetics of β-Si3N4 grain-growth in Si3N4 ceramics sintered under high nitrogen pressure. J. Am. Ceram. Soc., 76, 91-96(1993).

    [21] R RIEDEL, A KIENZLE, W DRESSLER et al. A silicoboron carbonitride ceramic stable to 2,000 ℃. Nature, 382, 796-798(1996).

    [22] B THIYAGARAJAN G, R DEVASIA. Simple and low-cost synthetic route for SiBCN ceramic powder from a boron-modified cyclotrisilazane. J. Am. Ceram. Soc., 102, 476-489(2019).

    [23] F YANG J, J ZHANG G, T OHJI. Fabrication of low-shrinkage, porous silicon nitride ceramics by addition of a small amount of carbon. J. Am. Ceram. Soc., 84, 1639-1641(2001).

    [24] T FABER K, G EVANS A. Crack deflection processes-Ⅰ. Theory. Acta Metall., 31, 565-576(1983).

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    Ye ZHANG, Dongxu YAO, Kaihui ZUO, Yongfeng XIA, Jinwei YIN, Yuping ZENG. Combustion Synthesis of Si3N4-BN-SiC Composites by in-situ Introduction of BN and SiC[J]. Journal of Inorganic Materials, 2022, 37(5): 574

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    Paper Information

    Category: RESEARCH LETTER

    Received: Jul. 5, 2021

    Accepted: --

    Published Online: Jan. 10, 2023

    The Author Email: ZENG Yuping (yuping-zeng@mail.sic.ac.cn)

    DOI:10.15541/jim20210422

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology