膜科学与技术
膜科學與技術
막과학여기술
MEMBRANE SCIENCE AND TECHNOLOGY
2001年
2期
17-21
,共5页
丁祥金%张继周%桂子清%李静键%王若钉%冯楚德
丁祥金%張繼週%桂子清%李靜鍵%王若釘%馮楚德
정상금%장계주%계자청%리정건%왕약정%풍초덕
氧化铝%支撑体%挤出成型%形貌
氧化鋁%支撐體%擠齣成型%形貌
양화려%지탱체%제출성형%형모
采用球形和非球形Al2O3粉料,探讨挤出成型中粉料颗粒形貌对多孔支撑体的性能的影响.用压汞仪、扫描电子显微镜(SEM)等手段分析了1?450和1?500?℃下4?h烧成的试样.结果表明,规则球形Al2O3粉料可以按球形密堆积的形式形成支撑体,使气孔率变小,不利于制备高气孔率的支撑体,并且球形Al2O3粉料颗粒自身的多孔性使制得的试样出现孔径的双峰分布,要在较高烧成温度下可以消除,但该双峰分布结构对透气度没有影响;球形颗粒间的接触面积减少,不利于烧结和支撑体强度,但是,球形粉料形成的孔的形状规则,易于使支撑体整体均匀化.
採用毬形和非毬形Al2O3粉料,探討擠齣成型中粉料顆粒形貌對多孔支撐體的性能的影響.用壓汞儀、掃描電子顯微鏡(SEM)等手段分析瞭1?450和1?500?℃下4?h燒成的試樣.結果錶明,規則毬形Al2O3粉料可以按毬形密堆積的形式形成支撐體,使氣孔率變小,不利于製備高氣孔率的支撐體,併且毬形Al2O3粉料顆粒自身的多孔性使製得的試樣齣現孔徑的雙峰分佈,要在較高燒成溫度下可以消除,但該雙峰分佈結構對透氣度沒有影響;毬形顆粒間的接觸麵積減少,不利于燒結和支撐體彊度,但是,毬形粉料形成的孔的形狀規則,易于使支撐體整體均勻化.
채용구형화비구형Al2O3분료,탐토제출성형중분료과립형모대다공지탱체적성능적영향.용압홍의、소묘전자현미경(SEM)등수단분석료1?450화1?500?℃하4?h소성적시양.결과표명,규칙구형Al2O3분료가이안구형밀퇴적적형식형성지탱체,사기공솔변소,불리우제비고기공솔적지탱체,병차구형Al2O3분료과립자신적다공성사제득적시양출현공경적쌍봉분포,요재교고소성온도하가이소제,단해쌍봉분포결구대투기도몰유영향;구형과립간적접촉면적감소,불리우소결화지탱체강도,단시,구형분료형성적공적형상규칙,역우사지탱체정체균균화.
Spheroidal and non-spheroidal alumina powders were used to investigate the effects of powder morphology on the properties of exruded porous support. Mercury intrusion porosimetry and scanning electron microscopy were carried out to characterize the supports sintered at 1?450?℃ and 1?500?℃ for 4 hours, respectively. Results show that the regular spherical alumina powder could form porous support with low porosity in the way of close sphere package. It is disadvantageous to manufacture supports with high porosity. Simultaneously, the characteristics of spherical alumina with small pores led supports display double-peak pore size distribution, which would disappear at higher sintering temperature. The reduction of contact area between spherical particles doesn't benefit sintering process and support strength. However, spherical alumina powder could form regular pores in support. It is easy to produce porous supports with homogeneous microstructure.
