加入的镍粉越多,越利于非晶结构的形成,其放电容量就越大。
The more Ni powder introduced, the more advantageous for the formation of amorphous structure, and the larger discharge capacity obtained.
高频等离子弧及其诱发的激光支持燃烧波对于获得非晶结构起关键性的作用。
Highfrequency plasma and laser supported combustion wave induced by it are the main reasons for amorphous structure of ultrafine co powder.
设置在负极集电体上的负极活性物质层中的硅具有局部有序性的程度低的非晶结构。
Silicon in an anode active substance layer provided in an anode current collector has an amorphous structure with a low degree of a local order.
XRD分析结果表明,随金属离子浓度比的增加,镀层呈现由非晶结构向微晶结构转变的趋势。
The XRD analysis showed that the structure of the deposits changed from amorphous structure to microcrystalline as the metal ion concentration ratio increased.
液淬工艺参数的合理配合下获得的足够高的液淬速率是得到非晶结构的关键,也是制备质量条带的决定因素。
High quenching rate which can be obtained by the rational combination of quenching parameters mentioned above is the key to gain noncrystalline structure and high quality amorphous strips.
介绍了对非晶态合金催化剂的非晶结构、表面形态、活性中心等进行表征和定性的XRD、EX AFS、DSC、SEM和XPS等方法。
The XRD, EXAFS, DSC, SEM and XPS methods for determining and characterizing amorphous structure, surface morphology and active center of the catalysts were introduced.
半固态金属成形技术的关键是制备非枝晶结构的半固态金属材料。
For semi solid metal forming, it is crucial to produce semi solid metal materials that have non dendritic structure.
其语言是致密的结构非晶。
将这种方法应用到具体的非晶相绝缘体中,以材料的实际结构来构造双势垒模型,得到的结果与实验相吻合。
When it is applied to amorphous insulating materials with double well potential model being constructed based on real structure, simulation results are in accord with experiments.
金属纳米粒子的性能与其结构有关,而纯金属非晶纳米粒子极为罕见。
The Properties of metal nanoparticles are related to the crystal structure. So far pure metal amorphous nanoparticles have yet been found frequently.
采用X 射线光电子谱(XPS)对BCN非晶纳米薄膜的结构进行表征。
The structure of BCN amorphous nano-films were studied by XPS.
结果表明制备的碳膜是一种具有纳米石墨结构的非晶碳膜。
The results showed that the films are a-C films with nano-graphite structure.
同时公开 了一种双层隧穿介质结构的纳米晶浮栅非易失存储器的制作方法。
The invention simultaneously discloses a production method of the nanocrystal floating gate non-volatile memory with the double-layer tunneling dielectric structure.
半刚石是一种具有径向结构的非多面、聚晶球状金刚石。
Ballas is a non-faceted, polycrystalline spherically grown diamond having a radial structure.
大块非晶合金由于其独特的结构和优异性能而得到广泛的研究。
Bulk amorphous alloys (bulk metallic glasses) are widely researched for its unique microstructure and excellent properties.
该系列镁基块体非晶合金的优异性能使其在新型轻质结构材料等领域具有广阔的应用前景。
The serial Mg-based block amorphous alloy has wide application prospect in the fields of novel light structure materials, and the like by excellent performance.
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.
平均原子间距不但依赖于团簇的尺寸,且对团簇结构的变化敏感,可以作为非晶与密堆结构晶体转变的一个判据。
However, the mean atom distance depends on not only the cluster size, but also the cluster structure, which can be regarded as the criterion of determining the structure transformation.
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.
并测定了加热温度对不同磷含量的非晶镍磷合金的组织结构和硬度的变化规律。
Effects of heating temperatures on the structure and the hardness of amorphous Ni-P alloys with different phosphorus contents hare also been studied.
结果表明:薄膜由非晶硅结构转变为微晶硅结构,微晶硅晶粒尺寸在纳米级。
The results indicate that the amorphous film gradually transfers into microcrystalline Si, and the grain size is nanometer order of magnitude.
本论文针对热光可调谐光学薄膜滤波器的结构设计和非晶硅薄膜的PECVD制备工艺展开研究。
The research in this paper is mainly about the structural designing of the tunable thin film filter and the processing of amorphous silicon membrane depositing by PECVD.
非晶合金结构具有自仿性,在微米、纳米尺度具有相同的分维数;
The amorphous alloy used in the study has a unique structure.
非晶合金的稳定性是制备大块非晶合金的关键,而弛豫后形成的短程有序结构对非晶中的晶体相形核有重要的影响。
Stability of an amorphous alloy is a key for synthesizing bulk amorphous alloy, short range order formed after relaxation has important influence on nucleation of crystalline phase in amorphous.
气凝胶是一种结构可控的新型轻质纳米多孔性非晶固态材料,具有许多特殊性质,因而蕴藏着广阔的应用前景。
Aerogels are low donsity nano-porous non-crystalline solids whose structures can be controlled through preparation. They have numerous applications because they have many special properties.
以一定的结构模型分析探讨并从实验上证实了非晶半导体中短程序、中程序的存在。
The structure model in amorphous semiconductor was analysed and probed into in this paper, and confirm the structure of middle and short range order in amorphous semiconductor by means of experiment.
探讨了脉冲电流对大块非晶合金的结构驰豫和晶化转变行为的影响。
The influence of high-density pulsing current on the structural relaxation and crystallization behavior has been discussed.
在此基础上建造一个包含400个原子的非晶硅(锗)的结构模型,其主要参数均与实验符合得很好。
On the basis of the theory, a 400-atom structural model for a-Ge has been constructed. The main characteristics of the model are in good agreement with experimental results.
结果表明,晶区的非晶化转变是原丝在预氧化过程中组织结构演变的主要形式;
The results show that amorphization of crystallite is the main form of microstructural evolution during thermal stabilization of PAN fibers.
结果表明,晶区的非晶化转变是原丝在预氧化过程中组织结构演变的主要形式;
The results show that amorphization of crystallite is the main form of microstructural evolution during thermal stabilization of PAN fibers.
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