Oberon: I'll meet by moonlight, proud Titania.
真不巧又在月光下遇见你,傲慢的泰妲妮亚。
The preparation technology of titania extender was studied.
本文研究了一种钛白增量剂的制备方法。
The recent progresses of codoped titania photocatalyst are reviewed.
综述了近年来共掺杂二氧化钛光催化剂的研究进展。
Reversed micelle method was used to prepare titania ultrafiltration membranes.
采用新型的反胶团法制备了氧化钛超滤膜。
On its own, titania works best as a catalyst for this reaction in ultraviolet light.
格兰姆斯说,二氧化钛本身在紫外线下就是催化这个反应的良催化剂。
It involves the progress of using nanometer titania as material of chemical at last.
最后论述了纳米二氧化钛作化工材料的应用进展。
Titania is itself very cheap: in a larger-grained form, it is the pigment in white paint.
二氧化钛本身很便宜,呈颗粒状,是做成白色油漆的染料。
TITANIA I have a venturous fairy that shall seek The squirrel's hoard, and fetch thee new nuts.
我有一个善于冒险的小神仙,可以给你到松鼠的仓里取些新鲜的榛栗来。
In this paper, the preparation method of rainbow titania-mica pearlescent pigment is discussed.
本文研究了虹彩型云母钛珠光颜料的制备方法。
Titania has been a promising photocatalyst, and titania composite film is an important research region.
将二氧化钛在载体上成膜,是二氧化钛作为光催化剂具有发展前景的一个研究方向之一。
Quick surface metallization of titania powder was carried out by electroless chemical deposition of nickel.
采用镍的无电子化学沉积方法研究了纳米二氧化钛粉末表面的快速金属化。
But adding nitrogen and copper to the mix shifts the preference of the titania tubes to visible light, Grimes says.
但是通过加入氮气和铜,会改变二氧化钛在可见光下的催化活性。
The growth of titania nanoparticles in flames is simulated by using the commercial CFD-code FLUENT & it′s UDF.
通过编制C语言程序在CFD商业软件FLUENT中引入颗粒动力学模型,实现对颗粒成长的数学模拟。
The results show that there are obvious effects on the structure and properties of titania coatings when the voltage changes.
结果表明:电压对多孔二氧化钛涂层的结构和性能有很大影响。
The mechanical analysis showed the biomechanical compatibility was also improved by adding BGC into nanophase titania ceramic.
结果表明:纳米氧化钛陶瓷复合材料的生物活性、力学性能、蛋白吸附能力随。
The performance of polymer light-emitting diodes was optimized by dispersing titania nanotubes into different functional layers.
在聚合物电致发光器件中,通过在不同功能层中掺杂二氧化钛纳米管来改善器件的性能。
Exemplary LCD image mask glasses include fused silica, high purity fused silica and silica-titania containing 5-10 wt. % titania.
示例性的LCD图像掩模玻璃包括熔融石英,高纯度熔融石英和包含5 -10重量%氧化钛的二氧化硅-氧化钛。
With high speed camcorder system and digital oscillograph, this paper investigated the electric arc shape of lime titania type twin electrode.
用高速摄像系统及数字示波器对双电极钛钙型碳钢焊条的电弧形态进行了研究。
In this work, we optimized the anodization conditions of titanium and its alloys, and fabricated highly aligned titania-based nanotube arrays.
本文以钛合金为基材进行了阳极氧化工艺探索,制备出了均匀一致的氧化钛基复合纳米管。
In this paper, synthesis of titania monolithic material and the application of titania column in separation of casein hydrolysate were studied.
本文研究了钛胶基质整体材料的合成以及钛胶柱在分离酪蛋白的胰蛋白酶水解产物中的应用。
We realized that the research on the sysnthsis and application of new layer materials in titania pillared catalyst would be promising in future.
我们认为:新层材料的研究和应用有可能是钛柱粘土研究的一个有希望的方向。
Titania, because of its wonderful chemical stability and surface properties, was deemed to be a kind of emerging and good HPLC packing material.
二氧化钛因其极好的化学稳定性和表面性质被认为是一种新兴的、很有应用前景的HPLC基质。
The heat treatment caused crystallization of the amorphous titania nanotube arrays, it contribute to bonding strength with the substrate of titanium.
热处理使无定型的氧化钛纳米管阵列结晶,有助于提高其与钛基底的结合强度。
The liquid synthesis of nanocrystals titania at low temperature, due to avoiding the sintering process, brings superior physical and chemical properties.
低温液相合成晶态纳米二氧化钛由于避免了高温煅烧过程,可望赋予其更优越的特性。
In this paper, the mechanism, the technology preparing the titania porous films and the factors influencing the surface structure of films are introduced.
介绍了模板剂法制备多孔氧化钛薄膜的机理、工艺及影响薄膜结构的因素。
The paper involves the progress of preparation technology of nanometer titania, and focus on the preparation of nanometer titania via liquid phase methods.
论述了国内纳米二氧化钛微粒制备工艺的进展,重点论述了液相法制备纳米二氧化钛的相关技术进展。
The principle each method was introduced. Properties of titania prepared by all the method were compared. And, the characteristics of method were pointed out.
介绍了各种制备技术的基本原理,将各种制备方法制备的纳米二氧化钛的性能进行了比较,并指出了各种制备技术的特点。
Homogeneous and transparent thin nanostructured titania films doped by Y3 + were prepared on glass substrates by sol gel processing and dip coating technique.
用溶胶-凝胶法和浸渍-提拉法工艺,在玻璃表面上制备了均匀、透明的钇离子(Y3 +)掺杂二氧化钛纳米薄膜。
Homogeneous and transparent thin nanostructured titania films doped by Y3 + were prepared on glass substrates by sol gel processing and dip coating technique.
用溶胶-凝胶法和浸渍-提拉法工艺,在玻璃表面上制备了均匀、透明的钇离子(Y3 +)掺杂二氧化钛纳米薄膜。
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