摘要
为了掌握高Al_(2)O_(3)条件下(w(Al_(2)O_(3))为15%以上)高炉渣系的熔化特性,利用差式扫描量热仪分析了不同w(MgO)/w(Al_(2)O_(3))、碱度(R)以及w(Al_(2)O_(3))对高铝高炉渣的熔化温度及熔化热的影响。试验结果表明,炉渣熔化开始温度为1248~1291℃、熔化结束温度为1432~1485℃、熔化热为137~211 J/g;当w(Al_(2)O_(3))=15%、高w(MgO)/w(Al_(2)O_(3))时,发生了共晶逆反应,导致高炉炉渣熔化开始温度逐渐降低,但由于高炉炉渣的液相线温度基本未变,所以炉渣熔化结束温度基本未发生改变;w(Al_(2)O_(3))为20%时,随着w(MgO)/w(Al_(2)O_(3))的增加,炉渣中易生成熔点较高的镁铝尖晶石,导致高炉炉渣熔化开始温度逐渐增大,与此同时,炉渣液相线温度逐渐降低,导致炉渣熔化结束温度逐渐降低;随着碱度R的增加,高炉炉渣中生成了具有高熔点的化合物、炉渣的液相线温度升高,使得高炉炉渣的熔化开始温度逐渐增加、炉渣熔化结束温度逐渐升高;随着w(Al_(2)O_(3))的增加,发生了共晶逆反应,故炉渣的熔化开始温度逐渐降低,而随着w(Al_(2)O_(3))的增加,炉渣中键能较大的Al—O键增多,需要在更高温度下才能实现炉渣的最终熔化,即熔化结束温度逐渐增加;随着w(MgO)/w(Al_(2)O_(3))、R以及w(Al_(2)O_(3))的增加,炉渣熔化热逐渐增多。分析认为,随着R的增加,炉渣中有高熔点化合物的生成,熔化热增加;随着炉渣中w(Al_(2)O_(3))的增加,炉渣中Al—O键增多,解聚破坏熔渣结构消耗的热量增多;而随着w(MgO)/w(Al_(2)O_(3))增加,高熔点化合物的生成或熔化开始温度降低,造成熔化热增加。
In order to understand the melting characteristics of blast furnace slag with high Al_(2)O_(3)(w(Al_(2)O_(3))≥15%),the influences of different w(MgO)/w(Al_(2)O_(3)),basicity R and w(Al_(2)O_(3))on the melting temperature and heat of high aluminum blast furnace slag were discussed by differential scanning calorimeter(DSC).The experimental results show that the initial melting temperature(t;)of slag is 1248-1291℃,the end melting temperature(t;)is 1432-1485℃,and the heat of melting is 137-211 J/g.When w(Al_(2)O_(3))=15%,the eutectic reverse reaction occurs at high w(MgO)/w(Al_(2)O_(3)),which leads the initial melting temperature of blast furnace slag decreases.However,the end melting temperature of blast furnace slag is almost unchanged because the liquidus temperature does not change.When w(Al_(2)O_(3))=20%,with the increase of w(MgO)/w(Al_(2)O_(3)),magnesia-alumina spinel with high melting point is easily formed in the slag,which leads to the increase of initial melting temperature of slag,meanwhile,the end melting temperature of slag decreases due to the decrease of liquidus temperature.With the increase of R,compounds with high melting point are formed in the blast furnace slag,and the liquidus temperature of slag increases,making both the slag initial melting temperature and end melting temperature increase.With the increase of w(Al_(2)O_(3)),the eutectic reverse reaction occurs,so the initial melting temperature of slag decreases.However,with the increase of w(Al_(2)O_(3)),the Al—O bond with higher bond energy in slag increases,and the final melting of slag needs to be realized at a higher temperature,that is,the end melting temperature increases.With the increase of w(MgO)/w(Al_(2)O_(3)),basicity R and w(Al_(2)O_(3)),the melting heat(ΔH)of slag increases.Among them,compounds with high melting point are formed in the slag and the melting heat increases with the increase of R.While the w(Al_(2)O_(3))in slag increases,the Al—O bond in slag increases,and the amount of heat consumed by depolymerization of slag structure also increases.And with the increase of w(MgO)/w(Al_(2)O_(3)),the formation of high melting point compounds or the decrease of initial melting temperature is resulting in the increase of melting heat.
作者
王震
沈峰满
刘春城
郑海燕
杜金磊
张严
WANG Zhen;SHEN Feng-man;LIU Chun-cheng;ZHENG Hai-yan;DU Jin-lei;ZHANG Yan(School of Metallurgy,Northeastern University,Shenyang 110819,Liaoning,China)
出处
《钢铁》
CAS
CSCD
北大核心
2022年第2期36-45,共10页
Iron and Steel
基金
国家自然科学基金资助项目(NSFC52074072,NSFC51774071,NSFC51974073)。
关键词
高铝高炉渣
熔化温度
熔化热
镁铝比
差式扫描量热法
blast furnace slag with high Al_(2)O_(3)
melting temperature
heat of melting
ratio of w(MgO)/w(Al_(2)O_(3))
differential scanning calorimeter