1) cesium hollow cathode
铯空心阴极
2) hollow cathode
空心阴极
1.
Structure and mechanical properties of α-CN_x:H films synthesized by hollow cathode;
空心阴极制备a-CN_x:H薄膜的结构及力学性能研究
2.
Research on hollow cathode discharge plasma sintering techniques of aluminium nitride;
AlN陶瓷的空心阴极等离子烧结工艺研究
3.
Numerical-simulation of dynamic process in TC4 weld pool during hollow cathode arc welding in vacuum;
TC4合金空心阴极真空焊接熔池动态行为的数值模拟
3) hollow cathod
空心阴极
1.
Plasma nitriding of 40Cr steel assisted by hollow cathode;
40Cr钢空心阴极辅助离子渗氮
2.
In this paper, the self-maintaining arc in vacuum with hollow cathod and its application for welding and brazing were studied.
主要研究真空条件下的自持放电电弧(空心阴极真空电弧)作为新型热源用于熔化焊及钎焊的工艺适应性。
3.
For overcoming some shortcomings in usual sintering process of powder metallurgy goods, the hollow cathode plasma sintering process is studied.
为了克服常现粉末冶金制品烧结工艺的缺点,试验研究了空心阴极等离子烧结工艺。
4) hollow-cathode
空心阴极
1.
The discharge properties in a hollow-cathode tube filled with gas are measured and the wavelength for Helium discharge is obtained.
作者对空心阴极放电管中充入不同载气的放电性能进行了实验测试,得到空心阴极放电的部分特性。
5) Hollow cathode lamp
空心阴极灯
1.
Direct calibration of laser wavelength using laser induced fluorescence in hollow cathode lamp;
利用空心阴极灯中的诱导荧光直接标定染料激光波长
2.
With a hollow cathode lamp and a highly-resolution grating monochromator,the emission spectrum of 7 energy levels from the even-parity configurations 4d96s and 4d95d of palladium (Pd) have been measured.
运用钯元素空心阴极灯和高分辨率光栅单色仪测量了钯原子4d96s和4d95d组态的7个偶宇称能级的发射光谱,确定了这些能级向4d95p组态能级跃迁产生的15条谱线的跃迁分支比。
6) microhollow cathode discharge
微空心阴极
1.
Simulation of microhollow cathode discharge as electrons resource for large volume glow discharge;
微空心阴极放电作大体积辉光放电电子源的模拟研究
2.
Monte Carlo simulation of the electron motion in an Ar microhollow cathode discharge;
微空心阴极放电的Monte Carlo模拟研究
补充资料:多元素空心阴极灯
分子式:
CAS号:
性质:在同一支灯中用几种金属制成阴极,同时发射几种元素特征谱线的锐线光源。可用合金、金属间化合物或将多种金属粉末按一定比例混合,并压制和烧结,作成阴极。最多可达7种元素,如Al,Ca,Cu,Fe,Mg,Si,Zn灯。避免每测一种元素换一个灯,但发射强度低于单元素灯。如果几种金属组合不当,将产生光谱干扰。
CAS号:
性质:在同一支灯中用几种金属制成阴极,同时发射几种元素特征谱线的锐线光源。可用合金、金属间化合物或将多种金属粉末按一定比例混合,并压制和烧结,作成阴极。最多可达7种元素,如Al,Ca,Cu,Fe,Mg,Si,Zn灯。避免每测一种元素换一个灯,但发射强度低于单元素灯。如果几种金属组合不当,将产生光谱干扰。
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