Adsorption of trace phenol and formaldehyde in water with hydrophobic silica aerogel
疏水性二氧化硅气凝胶吸附水中微量苯酚和甲醛的研究
Here is an example of a fragment of aerogel sitting on the surface of the aerogel.
这是一个在气凝胶表面的气凝胶的碎片。
Next, find the surface of the aerogel.
然后,搜寻气凝胶的表面。
You can conceive of this as a smart scaffold, he said of the aerogel.
你可以把它想象成智能脚手架。
Study on the Process to Produce Sodium Fluoride and Silica aerogel from Fluorosilicic Acid
由氟硅酸制氟化钠和白炭黑的工艺研究
Aerogel is a kind of key functional material for space exploration.
气凝胶是空间探索领域的关键功能材料。
Study on Fly Ash with Treatment Replacing Silica Aerogel as Filler of Rubber
活性粉煤灰代替白炭黑作橡胶填料的研究
Studying on the preparation and application of silica aerogel composites for thermal insulation
二氧化硅气凝胶隔热复合材料的制备与应用
Volunteers have identified amazingly subtle features in the aerogel collectors.
志愿者识别出了气凝胶中令人惊异的细微结构。
Sodium montmorillonite can be freezedried into a spongelike matecurdrial known as an aerogel.
钠微晶高岭石可以冻干成海绵状的气凝胶。
The porous carbons including carbon black, carbon aerogel and multiwall carbon nanotube were studied.
研究的多孔炭包括炭黑、炭气凝胶和多壁碳纳米管。
We are cautiously optimistic that the tilting and distortion of the aerogel were minimal.
我们对凝胶最小限度得倾斜和扭曲表示谨慎得乐观。
The latex particles produced very short tracks in the aerogel, which was not a surprise.
橡胶颗粒在凝胶中产生了非常短得轨迹,这并不奇怪。
Sodium montmorillonite can be freezedried into a spongelike material known as an aerogel.
蒙脱土可以被冷冻干燥成一种叫做气凝胶的海绵状材料。
The major factors that influence the carbon aerogel films are analyzed from the construction characteristics.
联系结构特征,分析了影响碳气凝胶膜化制备的主要因素。
Aerogels are surely the most ideal candidate.
无疑,气凝胶将是最理想得候选材料!
Preparation, Structure and Properties of Modified Carbon Aerogels
改性炭气凝胶的制备及结构性能研究
A Study on Properties of New Mesoporous Solid Material Silica Aerogels
介孔固体新材料氧化硅气凝胶的研究
Research Progress of Carbon Aerogels and Their Application in Deionization
碳气凝胶的制备及其电除盐性能的研究
The high porosity of aerogels makes them have many unique properties.
由于气凝胶具有很高得孔隙率使它具有许多特殊得性质。
Several kinds of carbonized aerogels are prepared according to the modified technology process.
实验中通过改进工艺条件制备了一系列的碳气凝胶。
The focal points range from 20 microns above the aerogels surface to 100 microns deep within the surface.
焦点的深度从气凝胶表面20微米开始至100微米深处。
Preparation of aerogels and their application in catalysis are introduced in this paper.
本文综述了气凝胶得制备方法以及它在催化领域得应用。
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