Journal of the Chinese Ceramic Society, Volume. 51, Issue 3, 687(2023)

Development on Taphole Clay of Blast Furnace

JU Maoqi1...2,*, WEN Lidong1, NIE Jianhua1, CHENG Shuiming2, XIA Changyong2, LIANG Yonghe1, CAI Manfei1, and XU Chao13 |Show fewer author(s)
Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
  • show less
    References(27)

    [3] [3] SUGIURE M, SHINOTAKE A, NAKASHIMA M, et al. Simultaneous measurements of temperature and iron-slag ration at taphole of blast furnace[J]. Int J Thermophys, 2014, 35(6/7): 1320-1329.

    [5] [5] MAEDA E, TERAYAMA S, IIDA M. Evaluation of the rheological properties of taphole materials and estimation of injection into a blast furnace[J]. J Tech Assoc Refract, 2007, 27(2): 119.

    [6] [6] SHIBATA K, KIMURA Y, SHIMIZU M, et al. Dynamics of dead-man coke and hot metal flow in a blast furnace hearth[J]. ISIJ Int, 1990, 30(3): 208-215.

    [8] [8] TSUCHIYA N, FUKUTAKE T, YAMAUCHI Y, et al. In-furnace conditions as prerequisites for proper use and design of mud to control blast furnace taphole length[J]. ISIJ Int, 1998, 38(2): 116-125.

    [9] [9] ABRAMOWITZ H, GAFFNEY L J, ZIEGERT W L. Taphole mix properties and performance for the first year of operation on Inland's No.7 blast furnace[C]//Ironmaking Conference Proceedings, Warrendale, United States, 1986: 681-694.

    [11] [11] KITAZAWA Y. Study of taphole clay design considering volumetric particle size distribution[C]//the 7th International Symposium on Refractories, Xi′an, China, 2016: 1-6.

    [12] [12] OHTSUBO Y, FUJITAKE Y, KAWASAKI K, et al. Effect of the viscosity of tar on the hardening behavior of taphole clay[J]. Taikabutsu Overseas, 2002, 22(3): 278.

    [13] [13] UENAKA T, SHIMOMURA K, KUWANO K, et al. Refractory technology for extending the life of blast furnaces[C]//Ironmaking Conference Proceedings, Warrendale, United States, 1986: 185-191.

    [14] [14] KITAZAWA Y, IWASHITA K, KAYAMA T. Study on the time-dependent change in extrusion pressure taphole clay[J]. J Tech Assoc of Refract, 2009, 2(29): 138.

    [15] [15] WELLS T J, NIGHTINGALE S A, SPINKS G M. The effect of temperature on the extrusion behavior of a polymer/ceramic refractory paste[J]. J Mater Sci, 2005, 40: 315-321.

    [16] [16] TOIT J D, CROMARTY R D, GARBERS-CRAIG A M. Matte-tap- hole clay-refractory brick interaction in a PGM smelter[J]. J South Afr Inst of Min Met, 2016, 116(4): 339-342.

    [17] [17] TETSUYA Y, YASUNOBU T. Al2O3 mud to decrease blast furnace tapping frequency[J]. Iron Steel Eng, 1990, 67: 56-61.

    [19] [19] MANEN B, KOLLI M, OUEDRAOGO E, et al. Experimental characterisation and numerical simulation of the thermomechanical damage behaviour of kaolinitic refractory materials[J]. J Aust Ceram Soc, 2019, 55: 555-565.

    [24] [24] WANG F, CHEN P, LI X, et al. Effect of colloidal silica on the hydration behavior of calcium aluminate cement[J]. Mater, 2018, 11(10): 1849-1863.

    [25] [25] GUPTA A D, BANERJEE K P, BHARATH P R, et al. Properties and performance of a mud gun mass (tap hole clay) with respect to the stable application of the product in blast furnaces[J]. InterceramInt Ceram Rev, 2014, 63: 307-311.

    [35] [35] GUO M, LIANG Y, CAI M, et al. Improved slag resistance of taphole clay due to in situ formation of TiCN from ferrotitanium slag[J]. Ceram Int, 2021, 47(16): 23630-23636.

    [36] [36] JU M, CAI M, LIANG Y, et al. Application of calcium alumino- titanate to taphole clay[J]. J Iron Steel Res Int, 2021, 29: 1089-1100.

    [39] [39] MAZUMDER B, MISHRA BK, RANIDEVI S,Preparation of blast furnace tap hole mass from spent pot liner-A waste material from aluminum smelter plant[J]. Asian J Microbiol, Biotechnol Environ Sci, 2010, 12(3): 565-569.

    [46] [46] QIN H, LI Y, LONG M, et al. Performance investigation of resin bonded ferro-silicon nitride-corundum refractories after creep at 1300 ℃[J]. Ceram Int, 2017, 43(18): 16424-16429.

    [47] [47] SHATOKHIN I M, ZIATDINOV M K, MANASHEVA E M. SHS ferrosilicon nitride NITRO-FESILTL as a new tap-hole clay refractory component for blast furnaces[J]. Refract Ind Ceram, 2014, 54(5): 345-349.

    [48] [48] LIU X Y, FANG M H, LIU Y G, et al. Fe-Sialon-Ti(C,N) composites from carbothermal reduction-nitridation of low-priced minerals and their application in taphole clay refractories[J]. Ceram Int, 2014, 40(7): 9709-9714.

    [50] [50] GIOVANNELLI-MAIZO I D, LUZ A P, PANDOLFELLI V C. Advanced boron-containing refractory castables bonded with calcium-free binders[J]. CeramInt, 2019, 45(7): 8774-8782.

    [51] [51] GIOVANNELLI-MAIZO I D, LUZ A P, PAGLIOSA C, et al. Boron sources as sintering additives for alumina-based refractory castables[J]. Ceram Int, 2017, 43(13): 10207-10216.

    [52] [52] JU M Q, CAI M F, NIE J H, et al. Advanced Al2O3-SiC-SiO2-C refractories with B2O3 addition[J]. Ceram Int, 2021, 47(20): 29525-29531.

    [55] [55] WANG L, YIN Y, QIU W, et al. Effects of pitch addition on the properties of environmental-friendly tap-hole clay[J]. J Ceram Soc Jpn, 2017, 125(1): 12-18.

    [56] [56] CHENG Y, FANG C, SU J, et al. Carbonization behavior and mesophase conversion kinetics of coal tar pitch using a low temperature molten salt method[J]. J Ana Appl Pyrolysis, 2014, 109: 90-97.

    [60] [60] PEREZ M, GRANDA M, SANTAMARIA R. A thermoanalytical study of the co-pyrolysis of coal-tar pitch and petroleum pitch[J]. Fuel, 2004, 83(9): 1257-1265.

    Tools

    Get Citation

    Copy Citation Text

    JU Maoqi, WEN Lidong, NIE Jianhua, CHENG Shuiming, XIA Changyong, LIANG Yonghe, CAI Manfei, XU Chao. Development on Taphole Clay of Blast Furnace[J]. Journal of the Chinese Ceramic Society, 2023, 51(3): 687

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Save article for my favorites
    Paper Information

    Special Issue:

    Received: Jul. 19, 2022

    Accepted: --

    Published Online: Apr. 10, 2023

    The Author Email: Maoqi JU (mcc_maoqiju@126.com)

    DOI:

    CSTR:32186.14.

    Topics