摘要
针对攀西地区高镁型钒钛磁铁矿用量增加、高炉渣中MgO质量分数逐渐升高的特点,开展了w(MgO)对含TiC、TiN、Ti(C,N)等高熔点物质的高钛型高炉渣黏流特性影响的试验研究。结果表明,对于w(TiO2)=20%、w(A12O3)=14%、二元碱度R2为1.0~1.2的高炉渣,w(MgO)由8%增加到12%时,熔化性温度由1332℃升高到1364℃,炉渣趋于"短渣"特性;1450℃以上时,炉渣黏度低于0.3 Pa·s,仍具有良好的流动性,可满足高炉生产要求。
It is well known that the increasing dosage of high Mg-containing V-bearing titanomagnetite,the iron ore was adopted for the iron works at Panxi area of the Southwest China and correspondingly the MgO content(% mass fraction) increased gradually in the blast furnace slag.In view of the above fact,it is meaningful to investigate the influence of MgO content on the viscous flow property of high-Ti blast furnace slag containing high melting point material,such as TiC,TiN,Ti(C,N) etc.Results show that the blast furnace slag containing 20% TiO2 and 14% A12O3 presents the so call "short slag" characteristic with binary basicity R2 in a range of 1.0~1.2,of which the melting temperature increases from 1332℃ to1364℃ with the increasing MgO content from 8% to 12%.At temperatures above 1450℃,the slag viscosity is lower than 0.3 Pa·s with a good liquidity,which can meet the requirements for the smooth operation of blast furnace.
出处
《材料研究学报》
EI
CAS
CSCD
北大核心
2016年第6期443-447,共5页
Chinese Journal of Materials Research
基金
国家自然科学基金51174048
中央高校基本科研业务费专项资金N120402011资助项目~~
作者简介
本文联系人:魏国
