1) high temperature optical microscope
光学高温金相显微镜
1.
A high temperature optical microscope was used to in-situ investigate the sintering process of Al-10Mg binary system.
利用光学高温金相显微镜对Al 1 0Mg二元纯金属粉末体系的烧结过程进行原位观察 ,发现在镁颗粒内部晶界优先熔化 ,这是由于铝沿镁晶界的扩散系数远高于晶内扩散系数 ,在镁的晶界优先满足共晶的浓度条件而熔化造成的 ,从而直接证实晶界确是元素扩散的一条快速通道。
2) high-temperature optical microscope
高温光学金相显微镜
1.
For original position investigation of Al-Mg and Al-Cu,binary alloy powders during sintering a high-temperature optical microscope was employed,and the regularities in sintering of pure metal powders whose binary alloys have eutectic were revealed.
采用高温光学金相显微镜对Al-Mg和Al-Cu等纯金属粉末构成的二元合金体系进行烧结的原位观察,发现了具有共晶反应的纯金属粉末的烧结规律,并直接观察到晶界作为快速扩散通道的现象。
3) optical high temperature microscope
高温光学显微镜
4) high temperature microscope
高温显微镜
1.
Observation of oxidation process of diamond with high temperature microscope;
用高温显微镜直接观测金刚石的氧化过程
2.
The hot tensile strain process of the microstructure of duplex stainless steel was investigated with high temperature microscope(CSLM).
本文利用共聚焦激光扫描高温显微镜(CSLM)等设备对双相不锈钢的高温拉伸微观变形过程进行了研究。
3.
Pictures of high temperature microscope show that the sintering process can be divided into four stepps.
高温显微镜图片表明,制品的烧结过程可以分为4个阶段。
5) metallographic microscope
金相显微镜
1.
The influence of reaction pressure on the growth of diamond film is analyzed by using CH3CH2OH and H2 to serve as pressure source,the microwave plasma CVD to accumulate diamond film,the metallographic microscope(×400) to obseve the accumulation effect,and the X-ray diffraction to detect the quality of the film.
实验以CH3CH2OH和H2为气源,用微波等离子体CVD法沉积金刚石膜,并用金相显微镜(×400)观察其沉积效果,X射线衍射仪表征其成膜质量,最后分析反应气压对金刚石膜的影响。
2.
With the development of automobiles, materials and other industrial sectors, thedemand of metallographic microscope is growing significantly, especially the automaticmetallographic microscope which has high magnification and high degree of automa-tion.
随着汽车、材料等工业部门的发展,人们对金相显微镜,尤其是对放大倍率高、自动化程度高的正置金相显微镜的需求越来越大。
6) Metallurgical microscope
金相显微镜
1.
The traditional way of taking photomicrographs by metallurgical microscope can not satisfy the computer ′s needs.
传统的金相显微镜冲洗照相技术已不能满足计算机的需要,数码照相技术的问世使金相显微镜照相系统的改造成为可能。
2.
The remote monitoring and controlling syst em for a large scale metallurgical microscope is introduced in this paper.
介绍了针对大型金相显微镜设计的远程监控系统 。
3.
And the video - frequency metallurgical microscope turns optical signels into vision signals and shows the metallurgical structure on the display screen to make teaching and research easier.
普通光学金相显微镜只能通过目镜观察金相组织。
补充资料:显微镜带自动照相机的光学显微镜
[图]
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