拟薄水铝石

拟薄水铝石产品粒度和黏度是其主要性能指标。

Particle size and viscosity are two main indexes for pseudo-boehmite .

将拟薄水铝石视为一个演化系列，随着层间结构水的变化，导致结构由非晶态至晶态、无序向有序的演化。

As the pseudo-boehmite being a evolution series , the changes of layer structure water makes its structure evolve from non-crystalline and disordering to crystalline state and ordering .

DCS集散型控制系统在拟薄水铝石厂的应用

Application of DCS in Ni Bo Shui Lv shi factory

拟薄水铝石干燥温度对γ-Al2O3载体压碎强度的影响

Influence of drying temperature of pseudo-boehmite on crush strength of γ - al_2o_3 support

SB拟薄水铝石焙烧产物的晶体结构特性及相转变

Structural characteristics and phase transition of calcined sb pseudo-boehmite

氧化铝溶胶和酸化拟薄水铝石是目前国内制备半合成FCC催化剂的常用粘结剂。

Alumina sol and acidified pseudoboehmite are important binders which are widely used in preparing semi-synthesized FCC catalyst .

用拟薄水铝石和非晶态SiO2微粉为原料，用溶胶－凝胶工艺制取了莫来石凝胶。

Geled Mullite powder was prefered from alumina hydrate sol and noncrystalline ultrafine silica powder by sol-gel processing .

水蒸汽和拟薄水铝石的凝胶化处理加速了Al2O3的烧结，并且削弱了BaO的高温稳定作用。

The steam and pseudo boehmite gelation treatment will accelerate the sintering of Al 2O 3 and hence weaken the high temperature stabilisation effect of BaO .

笔者主要研究了拟薄水铝石干燥温度对γAl2O3载体压碎强度的影响，拟薄水铝石的干燥温度控制在60～110℃。

The influence of drying temperature of pseudo-boehmite on crush strength of γ - Al_2O_3 support was studied . Pseudo-boehmite was dried at temperature ranged from 60 to 110 ℃ .

当拟薄水铝石干燥温度为90℃时，虽然γAl2O3载体的压碎强度仍为20.8N/mm，但强度的均匀度明显下降，σ11X&值为24.9%；

When pseudo-boehmite was dried at 90 ℃, the crush strength of γ - Al_2O_3 support was 20.8 N / mm and σ _ 11 X - was 24.9 % .

两种拟薄水铝石对SAPO-41分子筛合成的影响

The effects of two pseudo-boehmites on the synthesis of molecular sieve SAPO-41

分别以磷酸、拟薄水铝石和硅溶胶为磷源、铝源和硅源，吗啉和三乙胺为模板剂，采用气相晶化法在不同条件下合成了SAPO-34分子筛。

SAPO-34 molecular sieve was synthesized from phosphoric acid , AlO ( OH )· 3H2O and silica sol with triethylamine or morpholine as templates by gas-phase crystallization .

拟薄水铝石结晶度对V-Sb系催化剂性能的影响

Effect of pseudo-boehmite crystallinity on the performance of V-Sb catalyst

用氨气作为循环介质，采用缓冲溶液沉淀法，制得的粉末状拟薄水铝石的比表面积达到300m~2/g以上，孔容达到0.7ml/g左右；

The pseudo-boehmite was obtained by depositing from buffer solution with ammonia gas circulated medium . The specific surface area of product reached up to 300m2 / g and pore volume reached about 0.7ml/g .

ZRP-5分子筛的孔结构与表面酸性对葡萄糖的转化均有影响。第二，以高岭土为载体，拟薄水铝石为粘结剂对ZRP-5分子筛进行了成型。

Moreover , both the pore structure and surface acidity have the influence on the conversion of glucose . Secondly , the forming ZRP-5 zeolite , which was formed by using Kaolin as support and Pseudo boehmite as binder , was examined on glucose conversion .

拟薄水铝石胶溶过程参数及胶团结构

Peptizing process parameters and colloidal particle structure of pseudo - boehmite

以拟薄水铝石为铝源制备浆态床二甲醚合成催化剂

Liquid-phase Preparation of DME Slurry Catalysts Using Pseudo-boehmite as Aluminum Source

拟薄水铝石气流干燥数值模拟及优化设计

The simulation and optimization design of gas flow drying of pseudo-boehmite

荧光光谱法研究Eu~（3+）在拟薄水铝石纳米胶粒表面的吸附

Fluorescence Studies of Eu Ions Adsorption on Pseudo-Boehmite Colloidal Particle Surface

拟薄水铝石/二氧化锡纳米微米复合材料的胶态加工技术

Gel-processing of Pseudo-boehmite and Tin Dioxide Nano - / micro - Composites

降低拟薄水铝石生产中新水消耗的几种途径

Some Approaches of Reducing Fresh Water Consumption for Pseudo-boehmite Production

浅谈拟薄水铝石生产线的工艺改进

Simple Analysis on the Process Improvement of Pseudo-boehmite Production Line

拟薄水铝石中三水铝石和拜尔石的含量分析

Analysis on Contents of Aluminite Trihydrate and Baeyer Stone in Quasi-thin-water Aluminite

研究了拟薄水铝石的酸分散性能。

The acid dispersion property of pseudoboehmite was studied .

大孔容拟薄水铝石的研制及工业应用

Development and Commercial Application of Large Pore Volume Pseudo-Boehmite

拟薄水铝石-海藻酸铝固定化酵母生产乙醇

Immobilization yeast of Al alginate-based pseudo-boehmite for ethanol production

硝酸法制备拟薄水铝石中温度影响研究

Research On Temperature Effect To The Production Of Pseudo-Boehmite With Nitric Acid Route

拟薄水铝石逆流洗涤研究硅溶胶制备与应用

THE COUNTERCURRENT WASHING OF PSEUDO - BOEHMITE Manufacture and Applications of Silica Sols

酸法合成拟薄水铝石的研究与表征

Study and characterization of pseudo-boehmite synthesized by acid method

温度是拟薄水铝石制备至关重要的条件。

Temperature is a critical condition for the manufacture of pseudo-boehmite ( PB ) .