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Bulletin of the Chinese Ceramic Society, Volume. 44, Issue 6, 2328(2025)

Damage Mechanism of MgO-CaO Refractory for Air Gun Area of AOD Furnace

PEI Qiang1, YAN Wen1、*, SONG Jinwen1, LIU Xiuyi1, QI Jiangtao2, LI Yuangao3, and SHI Huiying3
Author Affiliations
  • 1The State Key Laboratory of Refractory and Metallurgy, Wuhan University of Science and Technology, Wuhan 430081, China
  • 2Manufacturing Department of Shanxi Taigang Stainless Steel Co., Ltd., Taiyuan 030003, China
  • 3Shanxi Luweibao Taigang Refractories Co., Ltd., Taiyuan 030100, China
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    [1] [1] GHOSH A. Technological progress in dolomite refractory: a short review[J]. Steel & Metallurgy, 2021, 23(6): 34-38.

    [2] [2] QIU G B, PENG B, LI X, et al. Properties of regenerated MgO-CaO refractory bricks: impurity of silicon dioxide[J]. Materials Research Innovations, 2015, 19(sup 2): S2-119-S2-124.

    [3] [3] SHAHRAKI A, GHASEMI-KAHRIZSANGI S, NEMATI A. Performance improvement of MgO-CaO refractories by the addition of nano-sized Al2O3[J]. Materials Chemistry and Physics, 2017, 198: 354-359.

    [4] [4] JIA T M, AN G Y, CHE S X, et al. Grain growing dynamics of MgO-CaO composite ceramics[J]. Acta Metallurgica Sinica (English Edition), 2000(6): 1155-1158.

    [12] [12] ALNAJJAR M, CHRISTIEN F, BOSCH C, et al. A comparative study of microstructure and hydrogen embrittlement of selective laser melted and wrought 17-4 PH stainless steel[J]. Materials Science and Engineering: A, 2020, 785: 139363.

    [13] [13] SHIMIZU K. Wear of refractories for AOD furnace[J]. Journal of the Technical Association of Refractories, Japan, 2001, 21(4): 258-263.

    [22] [22] XU T T, XU Y B, LI Y W, et al. Corrosion mechanisms of magnesia-chrome refractories in copper slag and concurrent formation of hexavalent chromium[J]. Journal of Alloys and Compounds, 2019, 786: 306-313.

    [25] [25] LIU H, AN Y, WANG Z F, et al. Enhanced corrosion resistance of magnesia-chrome refractories impregnated with zirconia sol[J]. Ceramics International, 2023, 49(2): 2478-2485.

    [26] [26] MORIYAMA E, EJIRI K, TERASHIMA T, el at. Improvement of the spalling resistance of dolomite bricks[J]. Journal of the Technical Association of Refractories, Japan, 2004, 24(3): 181-185.

    [28] [28] WEI J W, MIAO Z, LI Y Y, et al. Chemical attack of Al2O3-MgAl2O4 refractory castables in the non-slag-tapping side of refining ladle[J]. Ceramics International, 2022, 48(12): 16832-16838.

    [29] [29] YAN W, WU G Y, MA S B, et al. Energy efficient lightweight periclase-magnesium alumina spinel castables containing porous aggregates for the working lining of steel ladles[J]. Journal of the European Ceramic Society, 2018, 38(12): 4276-4282.

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    PEI Qiang, YAN Wen, SONG Jinwen, LIU Xiuyi, QI Jiangtao, LI Yuangao, SHI Huiying. Damage Mechanism of MgO-CaO Refractory for Air Gun Area of AOD Furnace[J]. Bulletin of the Chinese Ceramic Society, 2025, 44(6): 2328

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    Paper Information

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    Received: Nov. 13, 2024

    Accepted: Jul. 30, 2025

    Published Online: Jul. 30, 2025

    The Author Email: YAN Wen (yanwen@wust.edu.cn)

    DOI:10.16552/j.cnki.issn1001-1625.2024.1376

    Topics

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