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镁碳砖的研究现状与发展趋势

姚华柏 姚苏哲 骆昶 陈俊红 侯新梅 孙加林

姚华柏, 姚苏哲, 骆昶, 陈俊红, 侯新梅, 孙加林. 镁碳砖的研究现状与发展趋势[J]. 工程科学学报, 2018, 40(3): 253-268. doi: 10.13374/j.issn2095-9389.2018.03.001
引用本文: 姚华柏, 姚苏哲, 骆昶, 陈俊红, 侯新梅, 孙加林. 镁碳砖的研究现状与发展趋势[J]. 工程科学学报, 2018, 40(3): 253-268. doi: 10.13374/j.issn2095-9389.2018.03.001
YAO Hua-bai, YAO Su-zhe, LUO Chang, CHEN Jun-hong, HOU Xin-mei, SUN Jia-lin. Current research and developing trend of MgO-C bricks[J]. Chinese Journal of Engineering, 2018, 40(3): 253-268. doi: 10.13374/j.issn2095-9389.2018.03.001
Citation: YAO Hua-bai, YAO Su-zhe, LUO Chang, CHEN Jun-hong, HOU Xin-mei, SUN Jia-lin. Current research and developing trend of MgO-C bricks[J]. Chinese Journal of Engineering, 2018, 40(3): 253-268. doi: 10.13374/j.issn2095-9389.2018.03.001

镁碳砖的研究现状与发展趋势

doi: 10.13374/j.issn2095-9389.2018.03.001
基金项目: 

中央高校基本科研业务费资助项目(FRF-TP-15-006C1)

国家自然科学基金资助项目(51572019,U1460201)

国家优秀青年基金资助项目(51522402)

详细信息
  • 中图分类号: TQ175.7

Current research and developing trend of MgO-C bricks

  • 摘要: 综述了近年来国内外镁碳质耐火材料的发展和研究现状,尤其对镁碳砖防氧化剂和镁碳砖低碳化等方面的研究与发展状况进行了分析和汇总.在此基础上提出了镁碳砖未来的研究方向,即通过成分优化和结构设计,提升和发挥传统材料的性能;研究开发高性能防氧化剂;镁碳砖低碳化方法的改进及性能评估.
  • [8] Zhu T B, Li Y W, Jin S L, et al. Catalytic formation of one-dimensional nanocarbon and MgO whiskers in low carbon MgO-C refractories. Ceram Int, 2015, 41(3):3541
    [19] Behera S, Sarkar R. Effect of different metal powder anti-oxidants on N220 nano carbon containing low carbon MgO-C refractory:an in-depth investigation. Ceram Int, 2016, 42(16):18484
    [21] Benavidez E, Brandaleze E, Musante L, et al. Corrosion study of MgO-C bricks in contact with a steelmaking slag. Proc Mater Sci, 2015, 8:228
    [24] White H E. Electrically fused magnesia. J Am Ceram Soc, 1938, 21(6):216
    [27] Zhu T B, Li Y W, Jin S L, et al. Microstructure and mechanical properties of MgO-C refractories containing expanded graphite. Ceram Int, 2013, 39(4):4529
    [28] Zhu T B, Li Y W, Sang S B, et al. Effect of nanocarbon sources on microstructure and mechanical properties of MgO-C refractories. Ceram Int, 2014, 40(3):4333
    [30] Zhang S, Marriott N J, Lee W E. Thermochemistry and microstructures of MgO-C refractories containing various antioxidants. J Eur Ceram Soc, 2001, 21(8):1037
    [32] Gokce A S, Gurcan C, Ozgen S, et al. The effect of antioxidants on the oxidation behaviour of magnesia-carbon refractory bricks. Ceram Int, 2008, 34(2):323
    [34] Rymon-Lipinski T, Fichtner R, Benecke T. Study of the oxidation protection of MgO-C refractories by means of boron carbide. Steel Res Int, 1992, 63(11):493
    [40] Campos K S, Silva G F B L E, Nunes E H M, et al. The influence of B 4 C and MgB2, additions on the behavior of MgO-C bricks. Ceram Int, 2012, 38(7):5661
    [43] Aneziris C G, Hubalkova J, Barabas R. Microstructure evaluation of MgO-C refractories with TiO2-and Al-additions. J Eur Ceram Soc, 2007, 27(1):73
    [49] Wei G P, Zhu B Q, Li X C, et al. Microstructure and mechanical properties of low-carbon MgO-C refractories bonded by an Fe nanosheet-modified phenol resin. Ceram Int, 2015, 41(1):1553
    [50] Bag M, Adak S, Sarkar R. Study on low carbon containing MgO-C refractory:use of nano carbon. Ceram Int, 2012, 38(3):2339
    [52] Tamura S, Ochiai T, Takanaga S, et al. Nano-tech refractories-1. The development of the nano structural matrix//Proceedings of UNITECR. Osaka, 2003, 3:517
    [55] Bag M, Adak S, Sarkar R. Nano carbon containing MgO-C refractory:effect of graphite content. Ceram Int, 2012, 38(6):4909
    [56] Behera S, Sarkar R. Low-carbon magnesia-carbon refractory:use of N220 nanocarbon black. Int J Appl Ceram Technol, 2014, 11(6):968
    [57] Behera S, Sarkar R. Study on variation of graphite content in N220 nanocarbon containing low carbon MgO-C refractory. Ironmaking Steelmaking, 2016, 43(2):130
    [60] Fuchimoto H, Hokki T, Asano K. Evaluation of ultra low carbon magnesia-carbon bricks//47th International Colloquium on Refractories. Aachen, 2004:59
    [63] Hashemi B, Nemati Z A, Faghihi-Sani M A. Effects of resin and graphite content on density and oxidation behavior of MgO-C refractory bricks. Ceram Int, 2006, 32(3):313
    [64] Wang S J, Jing X L, Wang Y, et al. High char yield of aryl boron-containing phenolic resins:the effect of phenylboronic acid on the thermal stability and carbonization of phenolic resins. Polym Degrad Stab, 2014, 99:1
    [65] Matsuo Y, Tanaka M, Yoshitomi J, et al. Effect of the carbon nanofiber addition on the mechanical properties of MgO-C brick//Proceedings of UNITECR. Kyoto, 2011:11
    [66] Li L, Tang G S, He Z Y, et al. Influences of black carbon addition on mechanical performance of low-carbon MgO-C composite. J Iron Steel Res Int, 2010, 17(12):75
    [67] Jansen H. Bonding of MgO-C bricks by catalytically activated resin. Millennium Steel Int, 2007:95
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出版历程
  • 收稿日期:  2017-08-06

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