对钡铁氧体的水凝胶、醇凝胶以及气凝胶的红外光谱进行了研究。
The IR spectra of hydrogel, alcogel and aerogel of BaFe12O19 were studied.
气凝胶也正在日常生活中得到应用。
然而,气凝胶没有能够让时尚界信服。
问:气凝胶“影片”是什么?
问:为什么“星辰”要使用气凝胶呢?
气凝胶是出了名的易碎。
钠蒙脱石能被冷冻干燥成气凝胶——类似海绵状的物质。
Sodium montmorillonite can be freeze-dried into a spongelike material known as an aerogel. Aerogels are famously fragile.
间苯二酚甲醛气凝胶是在一种类似生产白炭黑。
Resorcinol-formaldehyde aerogel is made in a way similar to production of silica aerogel.
其他种类的气凝胶也在被设计用于清除油料泄露。
二氧化硅气凝胶薄膜是一种应用广泛的功能材料。
Silica aerogel film is a kind of functional material which has an abroad foreground of applications.
实验中通过改进工艺条件制备了一系列的碳气凝胶。
Several kinds of carbonized aerogels are prepared according to the modified technology process.
研究者相信,某些用铂制造的气凝胶能够加速氢气的生产过程。
Researchers believe that some versions of aerogel which are made from platinum can be used to speed up the production of hydrogen.
并且对应地,在气凝胶内部的粘土分子网络还会阻止塑料破裂。
Filling the pores in the aerogel with plastic should remove its fragility and, conversely, the network of clay molecules in the aerogel will stop the plastic cracking.
气凝胶的独特结构使其具有不同于一般材料的热传导方式。
Aerogels have special thermal conduction manners which are different with common materials, be - cause of their unique structures.
气凝胶是惯性约束聚变(ICF)实验中的一种理想的靶材料。
Aerogels are perfect target materials in inertial confinement fusion (ICF) experiments.
翟磊的团队最近在ACSNan o上发表了一篇关于这种气凝胶的文章。
Zhai's team recently published an article about the aerogel in ACS Nano.
相比之下,其它超轻型物质,包括气凝胶和金属泡沫材料,分子结构都比较随意。
By contrast, other ultralight substances, including aerogels and metallic foams, have random cellular structures.
碳气凝胶是一种新型多孔碳材料,具有比表面积大、电导率高的特点。
Carbon aerogels are a kind of new porous carbon materials and have high specific surface area and conductance.
并利用XRD、IR和SEM研究了稻壳在制备气凝胶过程中的结构变化。
The structure transformation of rice husk during the aerogel preparation was investigated by XRD, IR and SEM.
虽然气凝胶被归入固体类物质,但它99%的成分是气体,这使得气凝胶拥有云雾状的外观。
Although aerogel is classed as a solid, 99% of the substance is made up of gas, which gives it a cloudy appearance.
气凝胶由于具有极高的孔隙率和极低的热导率,因此可以作为一种超级绝热材料。
Aerogels servers as a super thermal insulation material mainly due to its high nano-porosity and low thermal conductivity.
气凝胶的纳米级微孔不但能够像海绵一样收集污染物,它们还能够起到空气容器的作用。
Its nano-sized pores can not only collect pollutants like a sponge but they also act as air pockets.
实验需要的间苯二酚-甲醛(RF)气凝胶的孔径大于标准RF气凝胶所形成的孔径。
The pore size of resorcinol formaldehyde aerogels (RF) in experiments is bigger than that of standard RF aerogels.
实验需要的间苯二酚-甲醛(RF)气凝胶的孔径大于标准RF气凝胶所形成的孔径。
The pore size of resorcinol formaldehyde aerogels (RF) in experiments is bigger than that of standard RF aerogels.
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