Effect of h-BN rods on high-temperature properties of alumina–carbon refractory

IF 2.5 2区 材料科学
Ya-ge Li, Shuai-bing Wu, Feng Liang, Zhong Huang, Tu Long, Long Dong, Jun-yi Lv, Hong-juan Duan, Biao Wen, Yong Liu, Hai-jun Zhang
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引用次数: 0

Abstract

h-BN rods modified low-carbon alumina–carbon (Al2O3–C) refractories were prepared, and the effect of h-BN rod addition on the high-temperature properties was investigated and compared with commercial h-BN flake, carbon black, and carbon nanotubes additives. The results demonstrated that Al2O3–C refractories containing h-BN rods exhibited optimal high-temperature service performances, including 25% higher hot modulus of rupture, 21.3% higher thermal shock strength residual ratio, 20.9% lower in oxidation and 44.3% less in slag corrosion, compared to the counterpart specimens without additives. Moreover, benefiting from the synergistic enhancement of the rod-like h-BN and in-situ generated SiC whiskers, the high-temperature service performances of h-BN rods containing specimens outperformed counterpart specimens containing commercial h-BN flake, carbon black, and carbon nanotubes, respectively.

Abstract Image

h-BN 棒对氧化铝-碳耐火材料高温性能的影响
制备了 h-BN 棒改性的低碳氧化铝-碳(Al2O3-C)耐火材料,研究了添加 h-BN 棒对高温性能的影响,并与商用 h-BN 片材、炭黑和碳纳米管添加剂进行了比较。结果表明,与不含添加剂的同类试样相比,含有 h-BN 棒的 Al2O3-C 耐火材料具有最佳的高温服役性能,包括热断裂模数提高 25%,热冲击强度残余比提高 21.3%,氧化率降低 20.9%,渣腐蚀降低 44.3%。此外,得益于棒状 h-BN 和原位生成的碳化硅晶须的协同增效作用,含有 h-BN 棒的试样的高温服役性能分别优于含有商业 h-BN 薄片、碳黑和碳纳米管的同类试样。
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来源期刊
自引率
16.00%
发文量
161
审稿时长
2.8 months
期刊介绍: Publishes critically reviewed original research of archival significance Covers hydrometallurgy, pyrometallurgy, electrometallurgy, transport phenomena, process control, physical chemistry, solidification, mechanical working, solid state reactions, materials processing, and more Includes welding & joining, surface treatment, mathematical modeling, corrosion, wear and abrasion Journal of Iron and Steel Research International publishes original papers and occasional invited reviews on aspects of research and technology in the process metallurgy and metallic materials. Coverage emphasizes the relationships among the processing, structure and properties of metals, including advanced steel materials, superalloy, intermetallics, metallic functional materials, powder metallurgy, structural titanium alloy, composite steel materials, high entropy alloy, amorphous alloys, metallic nanomaterials, etc..
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