[1] 杨文刚,李红霞,刘国齐,等.高效连铸用薄板坯浸入式水口结构设计[J].耐火材料,2015,49(5):332-334+338. YANG W G, LI H X, LIU G Q, et al. Structure design of SEN for high efficiency thin slab continuous casting[J]. Refractories, 2015, 49(5): 332-334+338 (in Chinese). [2] 石 凯,夏 熠.炼钢用滑动水口材质体系的演变[J].耐火材料,2018,52(3):230-236. SHI K, XIA Y. Evolution of material systems of slide gates for steelmaking[J]. Refractories, 2018, 52(3): 230-236 (in Chinese). [3] WANG H, LI Y W, ZHU T B, et al. Strengthening of Al2O3-C slide gate plate refractories with microcrystalline graphite[J]. Ceramics International, 2017, 43(13): 9912-9918. [4] BEHERA S K, MISHRA B. Strengthening of Al2O3-C slide gate plate refractories with expanded graphite[J]. Ceramics International, 2015, 41(3): 4254-4259. [5] 李姝欣,段 锋,任学华,等.连铸用Al2O3-C滑板研究现状与展望[J].硅酸盐通报,2019,38(9):2847-2854+2864. LI S X, DUAN F, REN X H, et al. Research status and outlook of Al2O3-C slide gates for continuous casting[J]. Bulletin of the Chinese Ceramic Society, 2019, 38(9): 2847-2854+2864 (in Chinese). [6] BAN J J, ZHOU C J, FENG L, et al. Preparation and application of ZrB2-SiCw composite powder for corrosion resistance improvement in Al2O3-ZrO2-C slide plate materials[J]. Ceramics International, 2020, 46(7): 9817-9825. [7] FAN H B, LI Y W, HUANG Y P, et al. Microstructures and mechanical properties of Al2O3-ZrO2-C refractories using silicon, microsilica or their combination as additive[J]. Materials Science and Engineering: A, 2012, 545: 148-154. [8] 贺智勇,洪彦若,孙加林,等.铝锆炭滑板在浇铸钙处理钢时的化学侵蚀[J].耐火材料,2004,38(5):316-317. HE Z Y, HONG Y R, SUN J L, et al. Chemical erosion of Al2O3-ZrO2-C slide nozzle plate in casting calcium-treated steel[J]. Refractories, 2004, 38(5): 316-317 (in Chinese). [9] 姚金甫,沈钟铭,金从进.钙处理钢对浸入式水口的侵蚀分析[J].耐火材料,2014,48(5):377-378. YAO J F, SHEN Z M, JIN C J. Corrosion analysis of Ca treated steel on submerged nozzle[J]. Refractories, 2014, 48(5): 377-378 (in Chinese). [10] 周春泉,黄广镇.钢水的钙处理和对滑板的侵蚀分析[J].炼钢,1999,15(6):34-37. ZHOU C Q, HUANG G Z. Analysis on calcium-treatment to molten steel and wear of sliding gate[J]. Steelmaking, 1999, 15(6): 34-37 (in Chinese). [11] 卫忠贤,李保英,游佩玉,等.烧成镁尖晶石滑板的研制与使用[J].耐火材料,2002,36(4):229-230. WEI Z X, LI B Y, YOU P Y, et al. Development and application of fired magnesia spinel slide plate[J]. Refractories, 2002, 36(4): 229-230 (in Chinese). [12] 卫忠贤,欧阳本辉.镁质复合滑板的研制和使用[J].耐火材料,2001,35(4):210-212. WEI Z X, OUYANG B H. Development and application of magnesia based composite slide plate[J]. Refractories, 2001, 35(4): 210-212 (in Chinese). [13] 罗旭东,张国栋,刘海啸,等.镁质复合滑板材料的研究与开发[J].鞍山科技大学学报,2007,30(6):586-589. LUO X D, ZHANG G D, LIU H X, et al. Development and research of magnesium compound side gate[J]. Journal of Anshan University of Science and Technology, 2007, 30(6): 586-589 (in Chinese). [14] HASSELMAN D P H. Unified theory of thermal shock fracture initiation and crack propagation in brittle ceramics[J]. Journal of the American Ceramic Society, 1969, 52(11): 600-604. [15] GU Q, MA T, ZHAO F, et al. Enhancement of the thermal shock resistance of MgO-C slide plate materials with the addition of nano-ZrO2 modified magnesia aggregates[J]. Journal of Alloys and Compounds, 2020, 847: 156339. [16] MA S H, SHI K, XIA Y, et al. Effect of modified MgO aggregates on mechanical properties of magnesium aluminate spinel refractories[J]. Ironmaking & Steelmaking, 2021, 48(3): 292-298. [17] 王玉霞,白明迅,李宏伟,等.加入陶瓷空心微珠对氧化铝空心球轻质浇注料性能的影响[J].耐火材料,2016,50(3):217-218+222. WANG Y X, BAI M X, LI H W, et al. Influence of adding ceramic hollow microspheres on the performance of alumina hollowball lightweight castable[J]. Refractories, 2016, 50(3): 217-218+222 (in Chinese). [18] 孙小改,闫 帅,李 韦,等.添加六铝酸钙颗粒对刚玉-尖晶石浇注料性能的影响[J].耐火材料,2015,49(5):372-375. SUN X G, YAN S, LI W, et al. Effects of calcium hexaluminate aggregates on properties of corundum- spinel castables[J]. Refractories, 2015, 49(5): 372-375 (in Chinese). [19] 裴春秋,石 干,徐建峰.六铝酸钙新型隔热耐火材料的性能及应用[J].工业炉,2007,29(1):45-49. PEI C Q, SHI G, XU J F. Properties and application of novel calcium hexaluminate insulating refractory[J]. Industrial Furnace, 2007, 29(1): 45-49 (in Chinese). |