非金属矿
非金屬礦
비금속광
NON-METALLIC MINES
2010年
2期
44-47
,共4页
矿物聚合物材料%高岭土%抗压强度%影响因素
礦物聚閤物材料%高嶺土%抗壓彊度%影響因素
광물취합물재료%고령토%항압강도%영향인소
geopolymer material%kaolin%compressive strength%affecting factor
以高岭土、水玻璃和NaOH为原料,制备矿物聚合物材料,研究高岭土煅烧温度及掺量、水玻璃和NaOH的掺量、养护温度分别对矿物聚合物抗压强度的影响.结果表明,高岭土煅烧温度升高、掺量增大、水玻璃和NaOH的掺量的分别增大,矿物聚合物抗压强度均先增大后减小;提高养护温度,可以显著提高矿物聚合物的早期抗压强度,缩短养护时间;并讨论了各影响因素的作用机理.最后得出矿物聚合物的最佳合成条件为:高岭土在600℃煅烧4h,高岭土、水玻璃、NaOH的配比为7.5:6:1,在60℃下养护2h,抗压强度可达70MPa以上.
以高嶺土、水玻璃和NaOH為原料,製備礦物聚閤物材料,研究高嶺土煅燒溫度及摻量、水玻璃和NaOH的摻量、養護溫度分彆對礦物聚閤物抗壓彊度的影響.結果錶明,高嶺土煅燒溫度升高、摻量增大、水玻璃和NaOH的摻量的分彆增大,礦物聚閤物抗壓彊度均先增大後減小;提高養護溫度,可以顯著提高礦物聚閤物的早期抗壓彊度,縮短養護時間;併討論瞭各影響因素的作用機理.最後得齣礦物聚閤物的最佳閤成條件為:高嶺土在600℃煅燒4h,高嶺土、水玻璃、NaOH的配比為7.5:6:1,在60℃下養護2h,抗壓彊度可達70MPa以上.
이고령토、수파리화NaOH위원료,제비광물취합물재료,연구고령토단소온도급참량、수파리화NaOH적참량、양호온도분별대광물취합물항압강도적영향.결과표명,고령토단소온도승고、참량증대、수파리화NaOH적참량적분별증대,광물취합물항압강도균선증대후감소;제고양호온도,가이현저제고광물취합물적조기항압강도,축단양호시간;병토론료각영향인소적작용궤리.최후득출광물취합물적최가합성조건위:고령토재600℃단소4h,고령토、수파리、NaOH적배비위7.5:6:1,재60℃하양호2h,항압강도가체70MPa이상.
Geopolymer material has been synthesized by kaolin,water glass and sodium hydroxide. The affecting factors of its compressive strength, such as calcined temperature and dosage of kaolin, the dosages of water glass and sodium hydroxide, curing tempreture respectively were studied. The results showed that with the calcined temperature of kaoolin rising, dosages of three raw materials increasing respectively, the compressive strength of all geopolymer materials was rising earlier and late down. Increasing of curing temperature could improve markedly the earlier compressive strength and shorten curing time of geopolymer material. The action mechanism of every affecting factor was discussed. The optimize synthesized parameters are as follows: calcined for 4h at 600"C for kaolin, 7.5:6:1 for the ration of kaolin: water glass: sodium hydroxide, curing for 2h at 60℃, in which conditions the compressive strength is above 70MPa.
