1) aluminum-magnesium hydroxide
铝镁氢氧化物
1.
The adsorption of dyes on aluminum-magnesium hydroxide sol possessing permanent positive charges and effects of the molar ratio of Al/ Mg in mixed solution, the types of dyes, pH were studied.
对染料在具有永久正电荷的铝镁氢氧化物上的吸附,考察了铝镁比、染料类型、pH值等因素对吸附效果的影响,并进行了动力学、热力学研究结果表明,铝镁氢氧化物溶胶具有良好的脱色效果,铝镁比为1∶3的溶胶处理效果最佳;溶胶对大多数阴离子型染料的脱色率明显大于其它类型;染料的吸附量随pH值的增大而减小;溶胶对实验的各种阴离子型染料的饱和吸附量在961—3319mg·g-1之间;吸附量随温度升高而减小,说明吸附是放热过
2) magnesium aluminum double hydroxide
镁铝双氢氧化物
1.
The sol charged positive of magnesium aluminum double hydroxide (MADH) was prepared by using AlCl_3·6H_2O, MgCl_3·6H_2O and NH_3·H_2O as raw materials.
以氯化铝、氯化镁、氨水等为原料,合成了镁铝双氢氧化物正电溶胶(MADH)。
3) magnesium aluminum hydroxide
氢氧化镁铝
1.
And the improvement of this system that cationic colloidal magnesium aluminum hydroxide accompanied with the anionic microparticulate was discussed.
介绍了近年来微粒助留体系的研究进展,尤其是无机阳离子微粒助留体系,着重论述了阳离子氢氧化镁铝与阴离子聚合物的协同助留作用及其发展。
2.
In experiment, positively charged magnesium aluminum hydroxide was synthesized by co-precipitation of magnesium chloride and aluminum chloride with dilute alkaline solution.
氢氧化镁铝为混合金属氢氧化物,是最常见的一类水滑石。
3.
In this study,The properties of magnesium aluminum hydroxides (MAH) were studied through the transmission electron microscope (TEM).
以实验室自己合成的氢氧化镁铝胶体作为原料,用透射电子显微镜(TEM)来观测其性质, 并研究其分别与阴离子聚丙烯酰胺和阳离子聚丙烯酰胺组成微粒助留体系对高岭土填料的絮聚作用。
4) magnesium aluminum hydroxides
氢氧化镁铝
1.
The microparticulate flocculation property of magnesium aluminum hydroxides/anionic polyacrylamide on talc;
氢氧化镁铝/阴离子聚丙烯酰胺对滑石粉的微粒絮聚特性
2.
In this study, the emulsifying effects of magnesium aluminum hydroxides,magnesium aluminum hydroxides together with ethyl cellulose on rosin solution were investigated.
研究了氢氧化镁铝及其与乙基纤维素(EC)联合使用对松香溶液的乳化作用。
3.
After being gelled, the magnesium aluminum hydroxides have a particle size of nanometer and carry permanent positive charges, which have an alluring potential for papermaking industry.
氢氧化镁铝属层状双混合金属氢氧化物,胶溶后具有纳米尺度,带有较高的永久性正电荷,具有诱人的开发前景。
5) aluminum-magnesium hydroxide
氢氧化铝镁
1.
Preparation of nanometer sized aluminum-magnesium hydroxide charge-modified material;
纳米氢氧化铝镁荷电材料的制备
2.
Study of the adsorption of Cr(Ⅵ) on aluminum-magnesium hydroxide positive nanomaterial;
正电纳米材料——氢氧化铝镁对Cr(Ⅵ)的吸附
3.
Study for the Adsorption of Cr(Ⅵ) on Aluminum-Magnesium Hydroxide Positive Nanopowder;
氢氧化铝镁正电纳米粉末对Cr(Ⅵ)的吸附性能研究
6) aluminum magnesium hydroxide
氢氧化铝镁
1.
Studies on coagulation of aluminum magnesium hydroxide positive sol with electrolyte solution;
电解质对氢氧化铝镁正电溶胶的聚沉作用
2.
By using AlCl_3·6H_2O and MgCl_2·6H_2O as starting materials, precursory sol is prepared, then aluminum magnesium hydroxide nanometer powder is prepared through SCDF.
以结晶氯化铝(AlCl3·6H2O)、结晶氯化镁(MgCl2·6H2O)为主要原料制备前驱体溶胶,然后采用超临界流体干燥技术(SCDF)制备纳米氢氧化铝镁超细粉体。
3.
It is shown in this paper that KCl and AlCl 3 affect the colloidal properties of the mixed suspension consisting of montmorillonite(Mt) particles (possessing permanent negative charges) and aluminum magnesium hydroxide(possessing permanent positive charges)/glycerol particles by measuring electrophoretic mobilities( U ), rheological parameters and middle pressure fluid loss( FL ).
通过电泳淌度、流变参数和中压滤失量的测定,研究了KCl和AlCl3对带永久负电荷的蒙脱土与带永久正电荷的氢氧化铝镁/甘油形成的混合悬浮体胶体性能的影响,并对影响机理进行了深入探
补充资料:氢氧化碳酸镁铝
药物名称:铝镁加
英文名:Almagate
别名:氢氧化碳酸镁铝
作用与特点:制酸作用及持续时间较氢氧化铝强。用于消化性溃疡、胃炎、胆汁反流性食管炎及食管裂孔等。不良反应有肠蠕动增加、腹泻、恶心及便秘等。
用法用量:口服:1g,4/d,饭后1-2h和睡前服。
规格:咀嚼片:0.5g, 混悬剂:7.5ml.
类别:制酸药和抗消化性溃疡药
英文名:Almagate
别名:氢氧化碳酸镁铝
作用与特点:制酸作用及持续时间较氢氧化铝强。用于消化性溃疡、胃炎、胆汁反流性食管炎及食管裂孔等。不良反应有肠蠕动增加、腹泻、恶心及便秘等。
用法用量:口服:1g,4/d,饭后1-2h和睡前服。
规格:咀嚼片:0.5g, 混悬剂:7.5ml.
类别:制酸药和抗消化性溃疡药
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条