本文报道利用二氧化硅微粒胶体溶液在玻璃和KDP晶体基质上制备多孔二氧化硅薄膜。
We report herein about the investigation on porous silica coatings prepared from colloidal silica solution on optical glasses and KDP crystal substrates.
作为防护胶体,它可能防止小滴和微粒凝结成块,从而抑制沉淀的形成。
As a protective colloid, it can prevent droplets and particles from coalescing and agglomerating, thereby inhibiting formation of sediments.
凝集作用从亲液胶体中分离出的一串微粒。
单步循环过滤,用来去除胶体硅基化学机械抛光(CMP)磨料中尺寸过大的微粒。
Single stage re-circulation filtrations were performed to remove oversized particles from colloidal silica based Chemical-Mechanical Polishing (CMP) slurry.
当导电徽滤膜应用于过滤时,由于电的作用,可以截留带电胶体微粒。
When this membrane has been applied to the filtration process, because of the electrical effects, it can rejects the charged colloidal particles.
荸荠汁由于含有多种胶体微粒而呈浑浊态,影响其感官品质。
The sensory quality of the water chestnut juice was influenced by its turbid state caused from colloidal granule.
二氧化硅溶胶是二氧化硅微粒分散于水中或有机溶剂中的胶体溶液。
The silica sol is a kind of colloid solution, silica drop dispersing in water or solvents.
采用乳剂和溶液的聚合技术制备了不同电荷密度和胶体性质的阳离子微粒聚合物(CPMP)。
Cationic polymeric micro particles (CPMP) with different charge densities and colloidal properties are prepared from emulsion and solution polymerization techniques.
着重论述了运用胶体物质的不稳定性理论,解释微粒子助留技术的作用机理。
It suggests that microparticles can assist the polymer by upsetting the stability of colloidal materials which interfere with the action of the polymer.
反渗透设备应用膜分离技术,能有效地去除水中的带电离子、无机物、胶体微粒、细菌及有机物质等。
Separation purification purposes. Reverse Osmosis membrane separation technology, can effectively remove the water ions, inorganic, colloidal particles, bacteria and organic substances.
本文介绍一种简单、方便、快捷的测定胶体硅微粒比表面积、粒径的方法——碱滴定法,适合工厂及研究中使用。
The measure method of specific surface area and microparticle diameter of colloidal silica by titration with sodium hydroxide was introduced in this paper, which is a simple method.
沙棘汁由于含有多种胶体微粒而呈浑浊态,影响其感官品质。
The sensory quality of dried red Sea buckthorns fruit wine was influenced by its turbid state caused from colloidal granule.
胶体微粒可很容易地放入悬浮体中,但从悬浮体中沉降的速度慢于粘土颗粒大小的物质。
Colloids are easily put in suspension but settle out of suspension slower than clay-sized material.
胶体微粒可很容易地放入悬浮体中,但从悬浮体中沉降的速度慢于粘土颗粒大小的物质。
Colloids are easily put in suspension but settle out of suspension slower than clay-sized material.
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