稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2008年
z2期
460-462
,共3页
李冬云%杨辉%连加松%葛洪良%张高会
李鼕雲%楊輝%連加鬆%葛洪良%張高會
리동운%양휘%련가송%갈홍량%장고회
纳米氧化铝%胶溶剂%特性%溶胶凝胶
納米氧化鋁%膠溶劑%特性%溶膠凝膠
납미양화려%효용제%특성%용효응효
the hydrated alumina%peptizer%characteristic%sol-gel
以异丙醇铝为原料,分别选用HNO3,NH4OH和NH4HF2作为溶胶剂,采用溶胶凝胶技术制各纳米氧化铝粉体.利用SEM,TEM和XRD等粉体分析和表征手段研究了几种胶溶剂对纳米氧化铝粉体特性的影响规律.结果表明,异丙醇铝水解时加入不同种类和不同量的溶胶剂将大大影响着纳米氧化铝粉体的形貌、粒径和分散性.粒度分析表明异丙醇铝水解时加入HNO3,NH4HF2或NH4OH时所制备的纳米氧化铝粉体的粒径大小与溶胶剂的关系曲线为具有一个最大值点的抛物线.XRD分析表明溶胶剂对粉体的晶型没有影响.扫描电镜和透射电镜分析表明,不同溶胶剂对纳米氧化铝粉体的形貌以及分散性有较大的影响,其中以氨水为溶胶剂时,粉体为絮状,且团聚现象严重;以硝酸为溶胶剂,粉体的分散性有较大提高,大块团聚现象不明显,不过粉体形貌不规则;以氟化氢铵为溶胶剂,颗粒性明显,分散性很好,无大块团聚出现.
以異丙醇鋁為原料,分彆選用HNO3,NH4OH和NH4HF2作為溶膠劑,採用溶膠凝膠技術製各納米氧化鋁粉體.利用SEM,TEM和XRD等粉體分析和錶徵手段研究瞭幾種膠溶劑對納米氧化鋁粉體特性的影響規律.結果錶明,異丙醇鋁水解時加入不同種類和不同量的溶膠劑將大大影響著納米氧化鋁粉體的形貌、粒徑和分散性.粒度分析錶明異丙醇鋁水解時加入HNO3,NH4HF2或NH4OH時所製備的納米氧化鋁粉體的粒徑大小與溶膠劑的關繫麯線為具有一箇最大值點的拋物線.XRD分析錶明溶膠劑對粉體的晶型沒有影響.掃描電鏡和透射電鏡分析錶明,不同溶膠劑對納米氧化鋁粉體的形貌以及分散性有較大的影響,其中以氨水為溶膠劑時,粉體為絮狀,且糰聚現象嚴重;以硝痠為溶膠劑,粉體的分散性有較大提高,大塊糰聚現象不明顯,不過粉體形貌不規則;以氟化氫銨為溶膠劑,顆粒性明顯,分散性很好,無大塊糰聚齣現.
이이병순려위원료,분별선용HNO3,NH4OH화NH4HF2작위용효제,채용용효응효기술제각납미양화려분체.이용SEM,TEM화XRD등분체분석화표정수단연구료궤충효용제대납미양화려분체특성적영향규률.결과표명,이병순려수해시가입불동충류화불동량적용효제장대대영향착납미양화려분체적형모、립경화분산성.립도분석표명이병순려수해시가입HNO3,NH4HF2혹NH4OH시소제비적납미양화려분체적립경대소여용효제적관계곡선위구유일개최대치점적포물선.XRD분석표명용효제대분체적정형몰유영향.소묘전경화투사전경분석표명,불동용효제대납미양화려분체적형모이급분산성유교대적영향,기중이안수위용효제시,분체위서상,차단취현상엄중;이초산위용효제,분체적분산성유교대제고,대괴단취현상불명현,불과분체형모불규칙;이불화경안위용효제,과립성명현,분산성흔호,무대괴단취출현.
In this paper,nanometer alumina powders were prepared by sol-gel method using aluminium alkoxide as precursor and selecting HNO3,NH4OH and NHrHF2 as the peptizers,respectively.The effect of different peptizers on the characteristics of nanometer alumina powders was studied by SEM,TEM and XRD.The results showed that the morphology,particle size and dispersing of nanometer alumina powders were greatly influenced by adding different kinds of peptizers when aluminium alkoxide hydrolyzed.The particle size analysis results indicated the curve of the particle size-the peptizer content presented parabola with a maximum value when the peptizer was HNO3,NH4HF2 or NH4OH.XRD shows that the peptizer has no influence on the crystal structure of nanometer alumina.SEM and TEM observations show that nanometer alumina is floccule when the peptizer is NH4OH;nanometer alumina grains with the irregular shape appear and their dispersing is improved when the peptizer is HNO3;the dispersing of nanometer alumina powders is excellent when the peptizer is NH4HF2.
