摘要
为了探明可否通过原位反应在Al2O3-SiC-TiO2-C浇注料中合成碳氮化钛,在Al2O3-SiC-TiO2-C浇注料常规配方中直接加入6%质量分数的TiO,制备了Al2O3-SiC-TiO2-C浇注料,结合1100-1500℃下埋炭热处理后浇注料的物相组成分析结果及热力学计算,研究了Al2O3-SiC-TiO2-C浇注料的物相演变过程。结果表明:在热处理温度为1100℃时,体系内的主要变化为锐钛矿向金红石的转变过程;加热至1200℃后,体系内的单质硅则可以完全与碳反应生成SiC;当温度升至1300℃时,体系内的金红石TiO2开始被还原而转变为Ti3O5,同时铝酸钙水泥的主要组分CaO、Al2O3与SiO2之间也开始相互反应生成钙铝石榴石相;温度升高至1400℃后,莫来石相开始生成,同时Ti3O5继续被还原并氮化转变为碳氮化钛;1500℃时,已经不再有新相生成,但莫来石和碳氮化钛的量明显增多,且晶格发育更加完善。
Al2O3-SiC-TiO2-C castable was prepared by direct adding 6 mass% TiO2 into the conventional Al2O3-SiC-TiO2-C castable to study whether titanium carbonitride can be in-situ formed in Al2O3-SiC-TiO2-C castable or not. Adopting thermodynamic calculations and XRD analysis,the phase evolution process of Al2O3-SiC-TiO2-C castable was investigated. The results indicate that the main change is the phase transformation from anatase to rutile at 1100℃ ;at 1 200℃,all Si reacts with C forming SiC;at 1300℃, rutile be- gins to be reduced to Ti3O5 ,and the main components of calcium aluminates cement,CaO and Al2O3, react with SiO2 forming grossularite; at 1 400℃, mullite forms, meanwhile Ti3O5 is further reduced and nitridized into titanium carbonitride;at 1 500℃,no new phase forms,but the amounts of mullite and titanium carbonitride increase obviously,and their crystal structures trend to be much more perfect.
出处
《耐火材料》
CAS
北大核心
2014年第1期43-45,共3页
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