研究了拟薄水铝石的酸分散性能。
针对碳化法生产拟薄水铝石新水消耗高的状况,提出了改进措施。
Since the fresh water consumption is so high in carbonation production, this paper points out some reconstruction measures.
研究了拟薄水铝石和三水氧化铝的生成机理。
Precipitation mechanism related to formation of pseudo-boehmite(PB) and aluminum trihydroxide was studied.
介绍我厂拟薄水铝石的生产实践和工艺技术改造。
The plant practice and techniques reforming of production of pseudo-boehmite in our plant are introduced in detail.
本发明涉及一种利用纳米型聚合氯化铝制备拟薄水铝石的方法。
The invention relates to a method for preparing pseudo-boehmite by utilizing nano poly-aluminium chloride.
用矿化剂NH_4F调节粉体的形状,使粉体中薄水铝石针状晶的数目降低并形成对调节载体孔结构有利的片状粉体;
Mineralization agent NH4F was used to regulate shape of the powder so as to lower the amount of bohemite needle crystals and form flake-shape powder;
填料用氢氧化铝及拟薄水铝石作为填料具有价格低、光学性能好、阻燃、无毒无害等优点,广泛应用于塑料、橡胶、人造石、人造玛瑙等行业。
Aluminum hydroxide for filler and pseudo boehmite as with the hydrogen the filler has low price and good optical function, flame retardant, not poisonous and harmless advantage.
在实验结果基础上,推断了花状薄水铝石的形成机理,并运用其形成机理阐释了各种反应因素对产物形貌的影响。
The formation mechanism was proposed on the basis of experimental results and explained the reason of the influence of the reaction factors on the morphologies.
在实验结果基础上,推断了花状薄水铝石的形成机理,并运用其形成机理阐释了各种反应因素对产物形貌的影响。
The formation mechanism was proposed on the basis of experimental results and explained the reason of the influence of the reaction factors on the morphologies.
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