1) boehmite
[英]['beimait] [美]['be,maɪt, 'bo-]
薄水铝石
1.
Rehydration of pseudoboehmite-derived γ-Al_2O_3 at lower temperature;
拟薄水铝石脱水产物γ-Al_2O_3在较低温度下的再水合过程研究
2.
Studies on Hydrothermal Behavior of Alumina Ⅲ.-Rehydration of Aluminas Derived from Boehmite;
氧化铝的水热化学研究 Ⅲ──薄水铝石脱水产物的再水合现象
3.
Synthesis and characterization of ovel 3D urchin-like boehmite(AlOOH) superstructures;
三维海胆状薄水铝石(AlOOH)的合成与表征
2) Pseudo-boehmite
拟薄水铝石
1.
Effects of drying operation condition on the properties of pseudo-boehmite;
烘干条件对拟薄水铝石性能的影响
2.
The Technical Reform of Pseudo-boehmite Production Designing Improvement;
拟薄水铝石生产的优化设计
3.
Plant Practice of Pseudo-boehmite Producing by Carbonation Method;
碳化法生产拟薄水铝石工业实践
3) pseudo boehmite
拟薄水铝石
1.
The study on the preparation of nano meter fibrous pseudo boehmite by rotating bed with helix channels;
螺旋通道型旋转床制备纳米纤维拟薄水铝石的研究
2.
Discussion on the factors to impact dispersion index of pseudo boehmite;
影响拟薄水铝石胶溶指数的因素
3.
The experimental results show that nano fibrous pseudo boehmite with large pore volume can be obtained in rotating bed with helix channels,and after baking it,γ-Al2O.
采用螺旋通道型旋转床超重力反应器,利用碳分反应制备了粒径5~10nm,长几百纳米的大孔容拟薄水铝石。
4) pseudoboehmite
拟薄水铝石
1.
Preparation of pseudoboehmite by carbonation in RPB through a pilot process;
超重力碳分制备拟薄水铝石的中试研究
2.
Effects of successive washing on structure and properties of pseudoboehmite in preparation of γ-Al_2O_3;
γ-Al_2O_3载体制备中连续化水洗对拟薄水铝石织构的影响
3.
Preparation and characterization of ultrafine active alumina Ⅰ: preparation of the precursor pseudoboehmite and its influence on the morphology of alumina;
超细活性氧化铝的制备及表征Ⅰ 前驱体拟薄水铝石的制备及其形态对活性氧化铝形态的影响
5) pseudoboemite
拟薄水铝石
1.
Preparation of pseudoboemite nano-fibers by high gravitational reactive carbonation in rotating packed bed;
超重力碳分反应法合成纳米拟薄水铝石
2.
The γ-Al_2O_3→α-Al_2O_3 phase transformation process has been studied by XRD、SEM、TG/DTA etc analysis technics using pseudoboemite as start material.
本文以拟薄水铝石为起始原料,采用XRD、SEM、TG/DTA等研究手段,研究了在γ-Al2O3→α-Al2O3相变过程中的影响因素,研磨、晶种、矿化剂等手段都可以促进相变过程的发生,这些因素对相转变过程的影响主要是降低相变过程的活化能,从而使γ-Al2O3在相对较低的温度下完成相变。
3.
The sol-gel process doesn ’t change pseudoboemite crystal structure.
运用XRD/SEM等手段,研究了拟薄水铝石凝胶烧结过程中α-Al2O3晶体的生长,溶胶-凝胶过程不改变拟薄水铝石的本质结构,只是使得其结构更加不完善。
6) very light boehmite
低密度薄水铝石
1.
Preparation of very light boehmite from hydrothermally supersaturated sodium aluminate solutions with boehmite seed;
水热种分法制备低密度薄水铝石及其表征
2.
Very light boehmite powders in the form of porous agglomeration of several micron size covered with needle clusters are obtained at above 140 ℃.
2 mol·L-1、[CO(NH2)2]:[Al3+]=2:1和反应2 h的水热条件下,不同反应温度的晶体生长过程进行了研究,得到呈多孔、针状团簇体状的微米级低密度薄水铝石晶体。
3.
Hydrothermal homogeneous precipitation of very light boehmites with tape density of 127.
采用水热均匀沉淀法,以硫酸铝和过量的尿素直接合成了低密度薄水铝石,结合ICP AES、XRD、FT IR、SEM和BET等分析和表征手段,着重考察了[Al3+]对反应过程和产物性质的影响。
补充资料:水铝石
水铝石
Diaspore; β-Alumina Monohydrate
shuilUshi水铝石Diaspore;月一Alumina Monohydrate见铝化合物 合物。无机铝化
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