高浓度水热法制备改性纳米氢氧化铝及流变性能

化工进展

高浓度水热法制备改性纳米氢氧化铝及流变性能

曹亚鹏，郭奋，梁磊，陈建峰

北京化工大学教育部超重力工程研究中心

出版日期:2007-05-25 发布日期:2007-05-25

Preparation of modified aluminuma trihydroxide at high concentration by thermal hydrolysis and rheology study of ATH suspension

CAO Yapeng，GUO Fen，LIANG Lei，CHEN Jianfeng

Research Center of the Ministry of Education for High Gravity Engineering and Technology，Beijing University of Chemical Technolog

Online:2007-05-25 Published:2007-05-25

摘要/Abstract

摘要： 从流变学角度对高浓度水热法制备改性纳米氢氧化铝（MATH）进行了研究。流变研究结果表明：纳米氢氧化铝（ATH）悬浮液是黏度极高的时变性非牛顿流体，其黏度随质量分数增加而显著增加。在酸性条件下，采用流变的方法筛选出对纳米ATH悬浮液有明显降黏作用的改性聚合物分散剂。将改性聚合物分散剂添加在高浓度ATH水热改性反应中，纳米ATH悬浮液的最大固含量从78 g/L提高到293 g/L，成功制备出了超薄菱形、热失重温度超过350℃、热失重率约为50%的改性纳米氢氧化铝。

Abstract: Preparation of modified aluminum thrihydroxide at a high concentration by thermal hydrolysis was studied by examining the rheology of ATH suspension. The ATH suspension was a very sticky time-dependent non-Newtonian fluid and its viscosity increased rapidly with the content of ATH. Rheology study was used to select dispersants for the ATH suspension in acid. A polyelectrolyte surfactant was found to decrease the viscosity of the ATH suspension apparently. The maximum content of ATH with added polyelectrolyte surfactant increased to 293 g/L from 78 g/L. Nano modified ATH could thus be prepared by thermal hydrolysis precipitation. The resulting modified ATH had ultra thin rhombic morphology with the beginning of thermal decomposition higher than 350 ℃ and weight loss of 50% approximately.

曹亚鹏，郭奋，梁磊，陈建峰. 高浓度水热法制备改性纳米氢氧化铝及流变性能 [J]. 化工进展.

CAO Yapeng，GUO Fen，LIANG Lei，CHEN Jianfeng. Preparation of modified aluminuma trihydroxide at high concentration by thermal hydrolysis and rheology study of ATH suspension[J]. Chemical Industry and Engineering Progree.