现代技术陶瓷
現代技術陶瓷
현대기술도자
ADVANCED CERAMICS
2012年
3期
13-19
,共7页
牛胜伟%刘铁艳%宗瑜婷%张静
牛勝偉%劉鐵豔%宗瑜婷%張靜
우성위%류철염%종유정%장정
纳米TiO2%料浆分散%团聚%分散剂
納米TiO2%料漿分散%糰聚%分散劑
납미TiO2%료장분산%단취%분산제
nano-scaled TiO2%aggregation%mud dispersivity%dispersant
在分析纳米TiO2粉体团聚现象成因的基础上,研究了HN分散剂对料浆分散性的影响。通过料浆沉降体积、黏度、电位、比表面积等表征了料浆性能的变化;同时研究了稀土离子、PH值、超声处理工艺等对料浆分散性的影响。结果表明,加入HN分散剂后,料浆分散性有很大提高,且不同固相含量的料浆使用的HN分散剂有一最佳值,其中30%质量分数的料浆中分散剂最佳量为0.25%;加入分散剂后,料浆黏度减小,电位提高,比表面积增大;稀土离子(CeO2,Ce(NO3)3)的加入、超声的使用也能提高料浆的分散性,料浆分散性的最佳PH值范围为碱性。
在分析納米TiO2粉體糰聚現象成因的基礎上,研究瞭HN分散劑對料漿分散性的影響。通過料漿沉降體積、黏度、電位、比錶麵積等錶徵瞭料漿性能的變化;同時研究瞭稀土離子、PH值、超聲處理工藝等對料漿分散性的影響。結果錶明,加入HN分散劑後,料漿分散性有很大提高,且不同固相含量的料漿使用的HN分散劑有一最佳值,其中30%質量分數的料漿中分散劑最佳量為0.25%;加入分散劑後,料漿黏度減小,電位提高,比錶麵積增大;稀土離子(CeO2,Ce(NO3)3)的加入、超聲的使用也能提高料漿的分散性,料漿分散性的最佳PH值範圍為堿性。
재분석납미TiO2분체단취현상성인적기출상,연구료HN분산제대료장분산성적영향。통과료장침강체적、점도、전위、비표면적등표정료료장성능적변화;동시연구료희토리자、PH치、초성처리공예등대료장분산성적영향。결과표명,가입HN분산제후,료장분산성유흔대제고,차불동고상함량적료장사용적HN분산제유일최가치,기중30%질량분수적료장중분산제최가량위0.25%;가입분산제후,료장점도감소,전위제고,비표면적증대;희토리자(CeO2,Ce(NO3)3)적가입、초성적사용야능제고료장적분산성,료장분산성적최가PH치범위위감성。
In this paper, the aggregation phenomenon of nano-scaled TiO2 was analyzed, and the influence of HN dispersant to water system TiO2 mud was also discussed. The property changes of the mud were characterized by settling volume, viscosity, PH value and ζ-potential. At the same time the effects of rare-earth ions, ultrasonic treatment were studied on the dispersivity of TiO2 mud. The results showed that higher dispersivity mud was obtained, and the optimum value of HN was different with different solid loading. When the solid loading was 30wt%, the appreciate amount of the HN dispersant was 0.25%. The introduction of rear earth ions(La^3+ ,Ce^3+) to the suspension. The result had improved the dispersivity of the suspension, and when the PH range was alkalinity the suspension oppressed the best dispersivity.