Zirconia is an important catalyst and support.
氧化锆是一种重要的催化荆及载体。
The crystals are incredibly sparkly and may be cubic zirconia.
难以置信的闪闪发光的晶体,可能是立方氧化锆。
The microstructure of the as sprayed zirconia coatings wee analyzed.
对氧化锆涂层的显微结构进行了探查。
Results show:Nanometer zirconia is easier for sintering than molybdenum.
实验结果表明:纳米氧化锆的烧结性能比金属钼好;
Doping sulfated zirconia with silica increases the acidity of the sulfated zirconia.
用氧化硅掺杂硫酸化氧化锆可以增强硫酸化氧化锆的酸性。
Doping sulfated zirconia with silica increases the acidity of the sulfated zirconia.
摘要用氧化硅掺杂硫酸化氧化锆可以增强硫酸化氧化锆的酸性。
One project is trying to use zirconia, a tin byproduct, to create solid oxide fuel cells.
其中一个计划是用锡的副产品氧化锆来生产固态氧燃料电池。
The equal-axis structure is profitable to thermal insulate ability of zirconia coatings.
对于热障涂层而言,等轴组织对提高涂层隔热能力有利。
The crystal structures and ionic conductivity of yttria stabilized zirconia (YSZ) are analyzed.
分析了钇稳定的二氧化锆(YSZ)的晶体结构及离子导电性。
One can assume that oxygen vacancies are the most important effect on the properties of zirconia.
其中心思想认为空穴是影响氧化锆结构稳定性的最重要因素。
In this paper, the application of zirconia in chemistry was reviewed, and its prospect was also described.
本文综述了二氧化锆在化学上的应用,并对其前景进行了展望。
The company can produce yttria elastomag and stable zirconia to meet the requirements of diversified users.
公司还可根据用户要求,生产氧化钇、氧化镁、稳定氧化锆。
But up to now there were only four dental zirconia ceramic materials in market with relatively high prices.
但上市销售的牙科氧化锆陶瓷材料仅有四种,且价格比较昂贵。
Zirconia Toughened Mullite (ZTM) ceramics is one of finest Performance high temperature structure ceramics.
氧化锆增韧莫来石(ztm)是优良的高温结构陶瓷材料。
Therefore, the preparation of one-dimension and zero-dimension zirconia crystal becomes a hot area of research.
制备性能优良的一维、零维氧化锆晶体已成为目前的科研热点。
The nanometer tetragonal polycrystal zirconia powder was prepared by the super alkaline method at low temperature.
利用低温超强碱法制备出了纳米四方多晶氧化锆粉体。
The synthesis and characteristics of MgO Partially stabilized zirconia ultrafine powder are investigated in this work.
本文对氧化镁部分稳定氧化锆超细粉末的制备工艺和性能进行了实验研究。
At the same time, the application of zirconia was introduced in detail according to the special properties of zirconia.
同时,基于氧化锆特殊的性质,较为全面地介绍了目前氧化锆的应用领域。
For practical people, Cubic Zirconia rings offer an opportunity to save for their house or a car while looking gorgeous.
对于实际的人,锆石戒指提供一个机会来挽救他们的房子,汽车,著眼华丽。
Conclusion: With proper preparation condition, weakly agglomerated powder of zirconia in nanometer size can be obtained.
结论:选择适当的条件,该方法可制得粒径小、团聚少的纳米氧化锆陶瓷粉体。
It is possible to mass produce cubic zirconia, and this is what makes them such a good cost effective alternative to diamonds.
这是可能的大规模生产立方氧化锆,这是什么使他们这样一个良好的成本效益的替代方案的钻石。
The microstructure of zirconia coating deposited by plasma spraying technique was studied by means of FESEM, SEM, TEM and XRD.
利用透射电镜(TEM)、扫描电镜(sem)和X射线衍射仪(XRD)等分析技术,表征了等离子喷涂氧化锆涂层的显微结构。
The properties and USES of zirconia ceramics are put briefly, and the productive technology of a zirconia ceramic is introduced in detail.
概述了锆质陶瓷的性能和用途,较详细地介绍了一种锆质陶瓷的生产工艺。
Research of zirconia in ceramics are reviewed in the paper. Four developing zirconia applications and zirconia ceramic systems are summarized.
综述了陶瓷中氧化锆的研究动态;介绍了氧化锆的几个主要应用领域及常用氧化锆陶瓷系列。
Research and characterization on the structure and surface characteristic of surface-modified nano-zirconia were achieved by TG, TEM and FT-IR.
采用TEM、TG和FT_IR对表面修饰后的纳米氧化锆结构和表面特性进行了表征和研究。
The effects of macromolecular dispersant and subzero treatment on the preparation of ultrafine non agglomerative zirconia powders have been studied.
研究了高分子分散剂及低温处理在制备无团聚超细氧化锆粉末中的作用。
How to select standard zirconia oxygen probes to achieve high precision measurement when testing zirconia probe with comparative method is described.
论述了用比较法检定氧化锆探头时,标准氧化锆探头的选择与实现其高精度测量的方法。
The increase in the crack velocity of all materials in water environment is observed, but the degree is more remarkable for glass ceramics and zirconia.
所研究的材料在水环境下的裂纹扩展速度均加快,但玻璃陶瓷和氧化锆陶瓷材料更为明显。
Objective: To approach the change of stress shielding rate of internal fixation materials made of nano zirconia gradient compounded with hydroxyapatite.
目的:探讨氧化锆梯度复合羟基磷灰石内固定材料的应力遮挡率的变化。
Objective: To approach the change of stress shielding rate of internal fixation materials made of nano zirconia gradient compounded with hydroxyapatite.
目的:探讨氧化锆梯度复合羟基磷灰石内固定材料的应力遮挡率的变化。
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