非金属矿
非金屬礦
비금속광
NON-METALLIC MINES
2013年
4期
5-8
,共4页
曹超%彭同江%孙红娟%丁文金
曹超%彭同江%孫紅娟%丁文金
조초%팽동강%손홍연%정문금
粉煤灰%微晶玻璃%核化%晶化%烧结
粉煤灰%微晶玻璃%覈化%晶化%燒結
분매회%미정파리%핵화%정화%소결
coal fly ash%glass-ceramics%nucleation%crystallization%sintering
以粉煤灰、石灰石和Na2CO3为原料,通过熔融烧结法制备了粉煤灰微晶玻璃。借助DTA、XRD及SEM等分析测试手段,研究了核化温度(760℃)及晶化温度(850~1000℃)对微晶玻璃析晶行为、显微形貌、烧结性能及化学稳定性的影响。结果表明,样品核化处理后除生成少量霞石相,主体仍为玻璃相;在晶化处理后,所形成的微晶玻璃样品主晶相为钙铝黄长石相;随晶化温度的升高,微晶玻璃样品晶相种类不变,但主晶相含量、线收缩率及体积密度呈现先增高后降低的变化;粉煤灰微晶玻璃具有良好的析晶性能及化学稳定性,在晶化温度为950℃时得到的微晶玻璃烧结效果和化学稳定性最好。
以粉煤灰、石灰石和Na2CO3為原料,通過鎔融燒結法製備瞭粉煤灰微晶玻璃。藉助DTA、XRD及SEM等分析測試手段,研究瞭覈化溫度(760℃)及晶化溫度(850~1000℃)對微晶玻璃析晶行為、顯微形貌、燒結性能及化學穩定性的影響。結果錶明,樣品覈化處理後除生成少量霞石相,主體仍為玻璃相;在晶化處理後,所形成的微晶玻璃樣品主晶相為鈣鋁黃長石相;隨晶化溫度的升高,微晶玻璃樣品晶相種類不變,但主晶相含量、線收縮率及體積密度呈現先增高後降低的變化;粉煤灰微晶玻璃具有良好的析晶性能及化學穩定性,在晶化溫度為950℃時得到的微晶玻璃燒結效果和化學穩定性最好。
이분매회、석회석화Na2CO3위원료,통과용융소결법제비료분매회미정파리。차조DTA、XRD급SEM등분석측시수단,연구료핵화온도(760℃)급정화온도(850~1000℃)대미정파리석정행위、현미형모、소결성능급화학은정성적영향。결과표명,양품핵화처리후제생성소량하석상,주체잉위파리상;재정화처리후,소형성적미정파리양품주정상위개려황장석상;수정화온도적승고,미정파리양품정상충류불변,단주정상함량、선수축솔급체적밀도정현선증고후강저적변화;분매회미정파리구유량호적석정성능급화학은정성,재정화온도위950℃시득도적미정파리소결효과화화학은정성최호。
The glass-ceramics was prepared with coal fly ash, limestone and Na2CO3 by sintering process. Effects of nucleation temperature (760℃) and crystallization temperature (850~1000℃) on crystallization behavior, microstructure, sintering character and chemical stability of glass-ceramics samples were analyzed by means of DTA, XRD, SEM and other analytical methods. The results show that besides a limited amount of nepheline emerges in the nucleating samples, the main form of the sample is glass phase. The main crystalline phase of the obtained glass–ceramics after crystallization is gehlenite (2CaO·Al2O3 ·SiO2). With the increasing of heat treatment temperature, the species of the crystalline is the same, but the main crystalline intensity, line shrinkage rate and bulk density increase first, and then decrease. The glass-ceramics have good crystallization properties and chemical stability. The glass-ceramics samples with best sintering character and chemical stability are obtained by crystallizing at 950℃.