采用Al和C脱氧钢液平衡氧含量的热力学分析

Thermodynamic analysis on the minimum oxygen content in molten steel using aluminum and carbon

  • 摘要: 对标准大气压强下的Al-O平衡和不同压强下C-O平衡进行了热力学计算,得到了钢液中O含量的最小理论值.温度一定的条件下,采用Al脱氧时钢液中Al和O呈U型关系;过小或过大的Al含量对减少钢液中O均不利;提高温度可进一步降低Al脱氧条件下的钢液中O含量的最小理论值.对C脱氧而言,温度一定的条件下,提高真空度可提高C的脱氧能力;且随着钢液中C的增加,钢液中O呈减少趋势.温度为1873 K,真空度100 Pa时,钢液中C含量大于0.0015%的条件下,C的脱氧能力大于Al的脱氧能力.利用实际数据分别对Al脱氧和C脱氧平衡曲线最低值理论公式验证,且与实际结果均符合较好.

     

    Abstract: The minimal oxygen content in molten steel under the condition ofAl-Oequilibrium at atmospheric pressure condition as well as that under the condition ofC-O equilibrium at various pressures was determined by thermodynamic analysis.Using aluminum as deoxidizer,the mass fraction ofAlandO in molten steel shows U-type relationship at a fixed temperature.The mass fraction ofOin molten steel cannot be effectively decreased when the mass fraction ofAl in molten steel is greater or smaller than the lowest value ofAl. Increasing temperature can reduce the minimal theoretics oxygen content in molten steel equilibrated with aluminum. It is well-known that decreasing the pressure or increasing the vacuum degree can largely improve the deoxidization ability of carbon. However,improving the mass fraction ofCin molten steel is also an alternative method to decrease the mass fraction ofOthroughC-Oequilibrium at a fixed value of pressure or vacuum degree. The deoxidizing ability of carbon throughC-Oequilibrium will be greater than that of aluminum byAl-Oequilibrium at 1873 K under conditions of the mass fraction ofCgreater than 0.0015% as well as the pressure is 100 Pa. Actual data is to used to test the minimum value theoretical formula ofAlandCdeoxidation which the results are well in agreement with that of the practical results.

     

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