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A platform for research: civil engineering, architecture and urbanism
Antioxidant low-carbon magnesia carbon brick and preparation method thereof
The invention provides a low-carbon magnesia carbon brick with excellent oxidation resistance and a preparation method thereof.The low-carbon magnesia carbon brick with excellent oxidation resistance is prepared from, by mass, 50-100 parts of fused magnesite, 0.5-10 parts of metal aluminum powder, 1-10 parts of phenolic resin, 0.5-10 parts of B4C-TiN multiphase material, 0.5-10 parts of high-temperature asphalt and 0.5-10 parts of graphite, and the low-carbon magnesia carbon brick with excellent oxidation resistance is prepared from, by mass, 50-100 parts of fused magnesite, 0.5-10 parts of metal aluminum powder, 1-10 parts of phenolic resin, 0.5-10 parts of B4C-TiN multiphase material, 0.5-10 parts of high-temperature asphalt and 0.5-10 parts of graphite. The low-carbon magnesia carbon brick with excellent oxidation resistance has good oxidation resistance and molten steel scouring resistance, is high in thermal shock resistance, and meets the smelting requirements of clean steel, ultra-low carbon steel and stainless steel.
本发明提供一种抗氧化性能优异的低碳镁碳砖及其制备方法,抗氧化性能优异的低碳镁碳砖,按照质量份数计算,其制备原料包括以下组分:电熔镁砂50‑100份、金属铝粉0.5‑10份、酚醛树脂1‑10份、B4C‑TiN复相材料0.5‑10份、高温沥青0.5‑10份、石墨0.5‑10份。该抗氧化性能优异的低碳镁碳砖具有良好的抗氧化性能及抗钢水冲刷性能,热震稳定性高,满足洁净钢、超低碳钢和不锈钢的冶炼需求。
Antioxidant low-carbon magnesia carbon brick and preparation method thereof
The invention provides a low-carbon magnesia carbon brick with excellent oxidation resistance and a preparation method thereof.The low-carbon magnesia carbon brick with excellent oxidation resistance is prepared from, by mass, 50-100 parts of fused magnesite, 0.5-10 parts of metal aluminum powder, 1-10 parts of phenolic resin, 0.5-10 parts of B4C-TiN multiphase material, 0.5-10 parts of high-temperature asphalt and 0.5-10 parts of graphite, and the low-carbon magnesia carbon brick with excellent oxidation resistance is prepared from, by mass, 50-100 parts of fused magnesite, 0.5-10 parts of metal aluminum powder, 1-10 parts of phenolic resin, 0.5-10 parts of B4C-TiN multiphase material, 0.5-10 parts of high-temperature asphalt and 0.5-10 parts of graphite. The low-carbon magnesia carbon brick with excellent oxidation resistance has good oxidation resistance and molten steel scouring resistance, is high in thermal shock resistance, and meets the smelting requirements of clean steel, ultra-low carbon steel and stainless steel.
本发明提供一种抗氧化性能优异的低碳镁碳砖及其制备方法,抗氧化性能优异的低碳镁碳砖,按照质量份数计算,其制备原料包括以下组分:电熔镁砂50‑100份、金属铝粉0.5‑10份、酚醛树脂1‑10份、B4C‑TiN复相材料0.5‑10份、高温沥青0.5‑10份、石墨0.5‑10份。该抗氧化性能优异的低碳镁碳砖具有良好的抗氧化性能及抗钢水冲刷性能,热震稳定性高,满足洁净钢、超低碳钢和不锈钢的冶炼需求。
Antioxidant low-carbon magnesia carbon brick and preparation method thereof
一种抗氧化的低碳镁碳砖及其制备方法
GONG LEI (author) / TONG XIAOSONG (author) / ZHAO WEI (author) / YAN HAO (author) / LIU JINGXUAN (author) / REN LIN (author) / ZHAO XIANTANG (author) / XU SHUANG (author) / SHAO JUNNING (author) / LIU LI (author)
2022-03-15
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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