trihydroxide
英
美
网络 三羟化物
双语例句
- Agglomeration Kinetic Model of Nano-alumina Trihydroxide in Carbonation via Viscosity at High Shear Rate
通过高剪切粘度建立碳分过程中纳米ATH的附聚动力学模型 - Surface modification of aluminum trihydroxide and its application in high impact polystyrene
氢氧化铝表面改性及在高抗冲聚苯乙烯中的应用 - Precipitation mechanism related to formation of pseudo-boehmite ( PB) and aluminum trihydroxide was studied.
研究了拟薄水铝石和三水氧化铝的生成机理。 - The study indicates that the aluminium trihydroxide particles in suspension form a stable network structure which can be retained or restored after temperature rise or shear destruction; the viscosity of the suspension fluctuates when the shear stress approaches the network structure destruction level.
研究表明悬浮液内氢氧化铝存在稳定的网络结构,并可以在一定的温度和剪切破坏后保持和恢复,黏度在切应力接近结构破坏强度时发生震荡。 - Study of indium trihydroxide In ( OH)_3 for ITO
ITO前驱物氢氧化铟In(OH)3理论研究 - Dispersion and rheology studies on alumina trihydroxide under severe conditions
苛性条件下纳米氢氧化铝分散和流变研究 - Investigation on Micromorphology and Properties of HDPE Filled with Nano Aluminum Trihydroxide
纳米氢氧化铝填充高密度聚乙烯体系的微观形态与性能研究 - The process of grinding a kaolinite and aluminum trihydroxide mixture using a high energy ball mill was investigated by SEM, XRD, DTA and FT-IR.
本文通过SEM、XRD、DTA、FTIR等测试手段对高岭土和氢氧化铝的高能球磨过程进行了研究。 - Effect of ultrasound on kinetics of aluminium trihydroxide precipitation Bayer process
超声场对种分反应动力学过程的影响 - Preparation of nano aluminium trihydroxide by high gravity carbonation
超重力法碳分制备纳米三水合氧化铝的研究 - Dispersion and rheology studies for the nano alumina trihydroxide aqueous suspension
纳米氢氧化铝的分散与水悬浮液流变研究 - Calcine the aluminum trihydroxide at 800 ℃, the dispersive fibriform γ-alumina powder was obtained. The specific surface area of the powder is 287.4 ㎡/ g.
在800℃煅烧得到比表面积为287.4㎡/g,具有单一晶型的纤维状的活性γ-Al2O3; - Rheology of the nano-aluminium trihydroxide suspension obtained from carbonation precipitation and related analysis of nano-particle agglomeration
碳分纳米氢氧化铝悬浮液的流变行为与纳米粒子团聚 - Improving carbonization temperature or choosing reasonable gas ventilating system may reduce the liquor supersaturation, and then the coarse grain aluminium trihydroxide with good crystallization and low content of impurities ( Na2O, SiO2) can be produced.
提高分解温度和选择合理的通气制度可以降低铝酸钠溶液的过饱和度,生产结晶良好、Na2O和SiO2杂质含量低的粗颗粒氢氧化铝产品。