导出晶相与非晶相界面法拉第角计算公式。
Farady Angle formulas of crystalline phase and noncrystalline phase interfaces are derived.
某些碟状近晶相液晶具有铁电和热电性质。
Some smectic mesophase liquid crystal exhibit ferroelectric and pyroelectric properties.
准晶相由包晶反应生成。
The peritectic reaction occurs in the icosahedral quasicrystal formation.
射线衍射分析结果表明,材料的主晶相为莫来石。
The XRD result shows that the main crystalline phase of the ceramic is mullite.
在液晶态可以观察到近晶相和向列相的典型织构。
The typical smectic phase and nematic phase texture can be observed.
运用XRD和SEM技术表征了膜的晶相和形貌。
The membranes were characterized by using XRD and SEM techniques.
XRD图谱显示,涂层表面主要晶相为氧磷灰石。
It is shown by XRD the presence of oxy-apatite in the coating.
材料研究中经常遇到的一个难题就是鉴别晶相的相变类型。
A problem often encountered in the research of materials is how to identify the type of phase change of crystals.
晶间非晶相的微结构不同于完全非晶,并随淬速的变化而改变。
The microstructure of the intergranular amorphous phase is different with that of the complete amorphous.
运用X射线衍射技术和晶相显微技术对试样进行了分析和讨论。
And the samples were analyzed in X-ray diffraction technology, micro-photograph technology and SEM.
本论文重点研究了长石瓷晶相含量和晶粒度对断裂韧性的影响。
The effect of crystal content and grain size of feldspathic porcelain on fracture toughness was discussed in the paper.
后者则分别对应于正交晶相向六方晶相的转变和六方晶相的熔融。
The later corresponded to the transition from orthorhombic phase to hexagonal phase and the melting behavior of hexagonal phase separately.
用XRD测试粉体的晶相组成; 用TEM分析粉末的晶体形貌。
The microstructure and crystal type of nano-powders were characterized by TEM and XRD.
以铌钽尾矿为主要原料,采用烧结法研制硅灰石为主晶相的微晶玻璃。
Using Ni-Ta tailing as the main raw materials, glass-ceramics in which wollastonite is a primary crystalline phase were developed.
射线粉末衍射数据确证了其晶体结构,证明这些荧光粉晶相组成纯净。
The data of X-Ray Powder Diffraction have proved these phosphors 'structure and their pure crystal composition.
首次利用龙江县硅灰石研制出了高压电瓷,并测试了其晶相组成和性能。
The high tension electroceramics using Long Jiang county wollastonite as a main material were successfully developed first.
采用XRD和SEM法确定莫来石-堇青石复相材料的晶相结构及其含量。
The polycrystalline structure of mullite-cordierite polyphase material and its contents were determined by XRD and SEM, respectively.
研究结果表明,室温下沉积的薄膜为颗粒致密的非晶相结构,晶界电阻较小。
The results show that the films with dense and amorphous structure and lower grain boundary resistance were deposited at room temperature.
通过标定过共晶铝硅合金两相区衍射斑点指数,确定了过共晶相的取向关系。
By indexing the diffraction patterns in the hypereutectic, we get the relationship of crystal orientation.
非晶相阻碍了钨骨架中裂纹的扩展,钨骨架抑制了非晶相中大面积流变的发生。
The propagation of crack in tungsten skeleton is blocked by amorphous and the tungsten skeleton restricts the flow of amorphous.
氟硅酸盐微晶玻璃的热膨胀性能主要取决于微晶玻璃的晶相组成及其相对含量。
The thermal expansion coefficient of fluosilicate glass-ceramics is mainly affected by the crystal phases and their amount.
复合材料的晶相组成,羟基磷灰石晶体大小、胶原纤维的结构等都与天然骨相似。
The composites were similar to natural bone to some extent in crystallite phase composition, crystallite size of hydroxyapatite and micro-structure of collagen fibril.
运用DTA,XRD,SEM等方法研究了微晶玻璃的晶化制度、析出晶相。
By means of DTA, XRD and SEM, The crystallized mechanism and crystallization phase identification were studied.
这表明,可以通过烧结工艺改变陶瓷制品中的晶相,从而获得性能优良的陶瓷材料。
It shows that ceramic material with good performance can be obtained by sintered technique to change crystal phase in ceramics product.
由于在分子中引入了手性中心和侧向氟原子,使得液晶呈现出不同寻常的近晶相织构。
The introduction of chiral center and lateral fluorines enable the liquid crystals to give unusual smectic textures.
以紫外拉曼光谱技术研究了在不同焙烧气氛中氧化锆样品的表面晶相结构及其转变过程。
UV Raman spectroscopy has been employed to investigate the surface phase transformation of zirconia calcined at different temperatures in different atmospheres.
该材料以镁方柱石、铝酸三钙、斜顽辉石为主晶相,配料中矿渣和玻璃粉用量高于70%。
Caloivm Aluminum Oxide and Clinoenstatite Syn as main Crystalline phase with the addition of slag and glass powder more than 70 percent in minor ingredients.
用TEM、XRD等方法研究了蒸发法制备的纳米铜粒子真空烧结后粒子尺寸及晶相的变化。
TEM, XRD were used to study the changes on particle size and crystal phase of nanometer copper after sintering in vacuum.
在非晶相和金属间化合物复合作用下,复合涂层具有高的硬度、弹性模量、耐磨性和耐蚀性。
The hardness, Young's modulus, wear resistance, and corrosion resistance of the coating are higher due to the recombination action of amorphous and inter-metallic compounds.
在非晶相和金属间化合物复合作用下,复合涂层具有高的硬度、弹性模量、耐磨性和耐蚀性。
The hardness, Young's modulus, wear resistance, and corrosion resistance of the coating are higher due to the recombination action of amorphous and inter-metallic compounds.
应用推荐