研究了不同热处理温度、热处理时间及不同旋转速度对薄膜形态和结构的影响。
The influence of the heat treated temperature, time and spin speed for the films structure and morphologies were studied.
它以一种薄膜胶囊式的基本形态来围绕金场,并以较小形态的能量胶囊围绕身体的所有原子。
It takes the primary form of a tissue capsule around the auric field and also smaller energy capsules around all of the atoms of the body.
该薄膜的表面形态和特征采用扫描电子显微技术(SEM),X射线衍射(XRD)以及原子力显微技术(afm)描述。
The surface morphology and characteristics of the films were characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD), and atomic force microscopy (AFM).
并且分别利用原子力显微镜和傅立叶变换红外光谱对薄膜进行界面形态和微观结构分析。
The surface morphology and chemical structure of the film are characterized by Atomic Force Microscope (AFM) and Fourier Transform Infrared Spectroscope (FTIR).
为了使薄膜结构具有一定的刚度,必须对其施加预应力,以确定满足平衡条件和建筑使用要求的初始平衡形态。
Tensioned membrane structures must be prestressed for stiffness so that an initial equilibrium shape meeting architectural service requirements can be established.
表2和图。3显示的影响粒子的大小和内容,便挂形态的二氧化钛薄膜。
Table 2 and Fig. 3 show the influences of particle size and contents of PEG on morphology of TiO2 film.
发现薄膜中晶粒的结晶取向、晶粒大小和晶粒边界条件直接影响其电畴的形态复杂程度。
It was revealed that the crystallographic orientation, dimensional sizes and boundaries of ferroelectric grains significantly affect the domain structures of thin films.
薄膜结构的形态分析是薄膜结构设计中的一个重要环节。
Form analysis of membrane structures is an important component in design of membrane structures.
总结了这两类材料的成膜条件、薄膜表面形态和结构以及它们的敏感特性。
Film preparation conditions, film surface morphology and structure of the two kinds of materials are summarized.
结果表明:冷却水温度变化对生产pp薄膜的结晶、形态和拉伸性能有很大影响。
The result showed that the cooling water temperature had a crucial role on the crystallization, morphology and tensile strength of PP films.
然后基于数学形态学方法提取出薄膜表面缺陷的密度;最后给出了薄膜表面缺陷粒径的分布模型。
Then, based on mathematical morphological, it extracts the density of defects and the model distribution of the defect size also.
薄膜的SEM和AFM观测表明样品表面光滑,且呈现出形态完整、分布均匀的晶粒。
SEM and AFM studies show that surface of the C60 film is very flat, arrangement of crystalline grain is even, morphology of C60 crystal is sharp.
结果表明,掺杂和热处理温度对薄膜晶粒尺寸的大小、薄膜的结构形态均有较大的影响,进而影响薄膜的电导及传感器的灵敏度。
The results indicates that doping and temperature of heat treatment greatly affectes the structure of thin film and its size of crystalline grain, thereby, influences its conduction and sensibility.
为了读取数据,采用一种薄膜磁阻传感器,其中传感器的形态各向异性在传感器纵轴的横断方向上得到增强。
For reading the data, a thin-film magnetoresistive sensor is used in which the shape anisotropy of the sensor is enhanced in a direction transversely to the longitudinal axis of the sensor.
薄膜生长过程中的结构和形态的研究在很多领域都有实际的应用,特别是在半导体制造领域。
The study of the thin-film structure and morphology during the thin-film growth has practical application in many areas, in particular in semiconductor industry.
钛酸钡系薄膜作为特殊形态的材料,已成为微电子、信息、传感器、光学、太等技术的基础,并广泛渗透到当前科技的各个领域。
BaTiO3-based thin film as a special material has penetrated into many parts of the science field land it has already been a basic tech for the microelectronics communication, sensor, optics.
该镍离子掺杂的氧化镉基稀磁半导体纳米材料存在形态为纳米粉末和纳米薄膜。
The existence mode of the nickel ion-doped cadmium oxide-based diluted magnetic semiconductor nano material is the nano powder and the nano film.
本文采用反应磁控溅射法和溶胶凝胶法制备了均匀致密的三氧化钨薄膜材料,对它的光学性质、表面形态、结构等进行了深入的研究。
The effects of low-power(LP) buffers on the structural properties of ZnO thin films deposited under high power by RF magnetron sputtering have been investigated.
结果表明:薄膜拉伸力曲线的形态与设定拉伸工艺相对应,并能够反应出薄膜的拉伸过程及薄膜性能。
The results showed that the shape of the stretching force curves corresponds to the drawing processes. It can show the film stretching behaviors and the film properties.
本文从大米含水率、薄膜种类、二氧化碳含量等因素入手,对大米的薄膜袋装储藏形态进行了正交试验及方差分析。
Rice moisture content, film of different kinds and co 2 content were measured, the orthogonal test of rice storage with film packing was carried out, and its variance was analysed.
当丝质薄膜溶解后,网状电路中的电极自动按大脑形态分布,从而检测出脑部的神经活动,结果比一般的脑内置电极更准确。
After the silk dissolved, the electrodes in the mesh followed the contours of the cat's brain and were able to detect neurological activity more accurately than conventional implanted electrodes.
在此基础上提出了结合力密度法和基于非线性有限元的节点平衡法以确定薄膜结构初始形态的一种较为有效的方法——综合节点平衡法。
Some calculation examples are done to analyze and evaluate by force density method and nonlinear finite element method. Based on the detailed research and evaluation, a new efficient …
在此基础上提出了结合力密度法和基于非线性有限元的节点平衡法以确定薄膜结构初始形态的一种较为有效的方法——综合节点平衡法。
Some calculation examples are done to analyze and evaluate by force density method and nonlinear finite element method. Based on the detailed research and evaluation, a new efficient …
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