1) ZAO target
ZAO靶材
1.
Phase structure and micro structur of ZAO target is analysed during sintering process.
以纳米级ZnO和Al2O3为基础粉料,采用模压+常压固相烧结的方法制备ZAO靶材,研究了烧结工艺对于靶材微观结构和性能的影响,并对其烧结机理进行了探讨分析。
2) Target
[英]['tɑ:ɡɪt] [美]['tɑrgɪt]
靶材
1.
Study on the yellow spots defect of ZnS-SiO_2 ceramic target;
ZnS-SiO_2陶瓷靶材中黄点缺陷的研究
2.
Preparation and electric properties of the Ba_(0.7)Sr_(0.3)TiO_3 ceramic target;
Ba_(0.7)Sr_(0.3)TiO_3陶瓷靶材的制备工艺及电性能研究
3) target material
靶材
1.
Properties and microstructure of Cr-Si target material manufactured by Hot Isostatic Press;
热等静压Cr-Si靶材的特性及微结构研究
2.
Microstructure and properties of nanocrystalline copper target material prepared by flow-levitation-molding method;
纳米金属铜靶材的微结构与性能
4) targets
[英]['tɑ:git] [美]['tɑrgɪt]
靶材
1.
The basic principle of sputtering was presented, and the targets and techniques used in the preparation of titania thin film from sputtering were reviewed and discussed.
介绍了溅射法镀膜的基本原理,阐述了溅射法镀二氧化钛薄膜用靶材及相应溅射镀膜工艺的研究现状。
2.
The main fields where targets are applied are silicon chip, FPD and memory technology.
介绍了全球靶材市场的概况和靶材的发展趋势。
3.
8)ferrite targets were prepared by solid state reaction method, then the effects of Ni content on the properties of NiZn targets were investigated.
首先采用固相反应法制备NixZn1-xFe2O4铁氧体靶材(x=0。
5) target materials
靶材
1.
Manufacture and application of sputtering target materials;
溅射靶材的应用及制备初探
2.
The demand for sputtering target materials are increased with the rapid development of the electronic and information industries in the world.
随着电子及信息产业突飞猛进的发展,世界溅射靶材的需求量越来越大。
3.
The superconducting target materials which are the sputtering source of thin films are very important to preparing high grade superconducting thin films.
高温超导材料在弱电和强电领域中的应用前景都非常美好,超导薄膜可在以薄膜为基础的微电子学器件上首先突破应用,而超导靶材是制备超导薄膜的溅射源,靶材质量的优劣直接影响超导薄膜的质量和应用。
6) target material
靶材料;靶材,靶物
补充资料:靶扫描和靶重建
靶扫描和靶重建
影像学术语。CT检查中,对扫描野(SFOV)中某一兴趣区扫描时行较大矩阵重建的方式称靶扫描。在扫描及影像重建完成后,对显示野(DFOV)中某一兴趣区重新进行较大矩阵重建成像的方式称靶重建。前者是直接利用扫描野中兴趣区的较大量的原始数据进行影像重建,后者则是利用常规扫描中采集的原始数据进行兴趣区的影像重建。两种技术实现的基本前提都是一次扫描所获得的投影测量数据必须能够满足兴趣区影像重建矩阵所需的信息量。靶扫描在扫描前预先设定兴趣区,成像后不储存非兴趣区原始数据;靶重建则需储存层面扫描所获得的全部原始数据,占用较多的磁盘空间,但以后可在图像中任选兴趣区进行局部重建。两种技术在成像效果(空间分辨率,对比分辨率)上是一致的,这与单纯的局部图像放大(zoom)不同。后者没有增加兴趣区内像素数量,虽使影像扩大但分辨率并未提高,清晰度反有下降。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条