对阴极

An electrode that is the target in a cathode-ray tube, especially in an x-ray tube.

对阴极在阴极射线管，尤其是x射线管内的对阴极电极

The phosphorescent coating on the inside of the screen of a cathode-ray tube.

对阴极在阴极射线管，尤其是x 射线管内的对阴极电极

They had suppressed the cathodic process of carbon steel electrode. Their inhibition performance was also related with their molecule stereo conformation and electron configuration. Four of bis-(1, 1'-benzotriazoly)-α,β-diamide compounds linked via-CO 〓CO-chain were synthesized and certified by IR and 〓H-NMR. The minimum energy conformations of these compounds were obtained by MM2 forcefield program. The two benzotriazole moiety in BBT1 was more planar than in other compounds. This was beneficial in increasing the inhibition effects of BBT1. In 0.5M H〓SO〓 solution, BBT1 suppressed anodic corrosion reaction. In 3%NaCl solution, BBT1 suppressed both cathodic and anodic corrosion reactions. 1- [ (1'-imidazolly)-methyl] benzotriazole was synthesized by Mannich reaction.

合成了四个通过-CO〓CO-连接的双（1，1'-苯并三唑）-α，ω-二酰胺化合物，采用MM2分子力学程序优化了它们的分子结构，双（1，1'-苯并三唑）-α，ω-二酰胺化合物的缓蚀作用与其分子内两个苯并三唑单元的空间取向有关系，良好的平面性有利于苯并三唑二聚体的吸附和缓蚀作用，苯并三唑二聚体BBT1分子内两个苯并三唑单元近似平行，所以显示出较好的缓蚀效果。0.5M硫酸中BBT1主要抑制铜的阳极溶解的电化学反应；3％NaCl溶液中，BBT1对铜的阳极溶解和氧的阴极还原过程均有抑制作用，相比较而言对阴极过程的抑制作用更大一些。

According to the characteristics of high-nickel copper cathode electrolyzation,an analysis is made on the factors of the electrolyte that impacts the surface quality of tough cathode ,and some suggestions are put forward for improving the quality of tough cathode .

针对高镍铜阳极电解的特点，分析研究了电解液对阴极铜质量产生影响的因素，提出了改善阴极铜质量的有关建

As a result, to chang the current density, pH have huge influence on cathodal overvoltage, to alter electrolyte concentration have little influence on cathodal overvoltage, and to chang the overvoltage will change the dimension of the powder directly.

结果表明：电流密度、pH值的改变对阴极过电位影响显著，电解液浓度的改变对阴极过电位无显著影响；而过电位的变化直接引起粉体粒径的变化；在阴极过电位高的条件下。

By using a new method of corroding cathode point,we have corroded metal material most in use.

采用一种腐蚀阴极尖端的新方法，对阴极常用金属材料W，Mo，Ir，Ta制作的阴极尖端进行腐蚀。

A method of computing rifle explorator solid contour curve;2. Real-Time Ensuring Technology in Artillery Rifle Manufacturing;3. It takes a long period to design an electrochemical machining cathode for machining the mixed rifle with large spiral angle and the experiments are difficult.

针对火炮炮管大缠角混合膛线电解加工中阴极研制周期长、设计难度大的问题，采用Visual C++对阴极工作齿按弹道方程运动生成膛线的过程进行了数值模拟，建立了阴极工作齿的三维模型和膛线加工模型，给出了该模型的求解算法。

In order to study the mechanism of electrodepositing Zn-Ni alloy coatings,the curve of cathodic polarization of electrodepositing Zn-Ni alloy coatings was determined by changing potential in the system of three electrodes,and the influence of concentration of additive on the cathodic polarization was studied.

为了研究Zn-Ni合金镀层的电沉积机理，采用三电极体系下的动电位法测定了电沉积Zn-Ni合金镀层的阴极极化曲线，并研究了添加剂浓度对阴极极化的影响。

It can be concluded from the above experiment results that for the auxiliaryheated arc plasma generator, an area which has uniform temperature distribution andhigher temperature. In this area, the diameter of the key arc root increases and thiscondition is beneficial to reduce the cathode erosion. At the same time, it is animportant segment for the secondary arc to rotate on the cathode surface and to heatthe surface for the auxiliary heated arc plasma generator.

总结上面的实验结果可以看出：在辅助加热电弧等离子体发生器中，利用辅助电弧对阴极表面的加热作用，能够在阴极表面形成一个温度较高且分布均匀的区域；在温度较高的区域内，主弧弧根直径增大，这种情形有利于减小阴极烧损；同时，辅助电弧旋转加热阴极表面是辅助加热电弧等离子体发生器的一个重要环节。

Arc plasma has many advantages, such as high temperature、 high energydensity and so on. It has been applied in the field of cutting、 welding、 metallurgyand material prepared etc, but there is a long-term problem in the field of the arcplasma technology, which is how to reduce cathode erosion to increase the life-timeof arc plasma generator, so many scholars in the world have been studying theproblem on the cathode erosion.

电弧等离子体具有温度高、能量密度大和对环境污染小等特点，它已被广泛应用于切割、焊接、冶金、材料制备等领域，但是在电弧等离子体技术中，怎样减少阴极烧损提高等离子体发生器的寿命是电弧等离子体技术中一个长期问题，因而国内外的许多学者仍在对阴极烧损这个问题进行研究；本文围绕&通过提高阴极表面温度，增强阴极表面的电子发射能力，来增大阴极弧根直径，进而降低电弧通过阴极弧根传入阴极表面的有效比热流，以达到减小阴极烧损的目的。&

anti-icer：防冰装置

anthracite 无烟煤 | anti icer 防冰装置 | anticathode 对阴极

anticatalyst：反催化剂

antibouncer 抗弹跳装置 | anticatalyst 反催化剂 | anticathode 对阴极

anticathode：对阴极

anticatalyst 反催化剂 | anticathode 对阴极 | antichlor 脱氯剂

anticathode：对阴极[X射线管中的靶子]

Anti-scatter grid 防散射光柵 | Anticathode 对阴极(X射线管中的靶子) | Aperture (小)孔,小眼(晶格). 孔徑

mirror, anticathode：对阴极镜

"镜面螺旋","mirror screw" | "对阴极镜","mirror, anticathode" | "反射镜","mirror, reflecting"

antichlor：脱氯剂

anticathode 对阴极 | antichlor 脱氯剂 | antichlorination 脱氯

anticlinal：背钭的

anticathode 对阴极 | anticlinal 背钭的 | anticlinal axis 背斜轴

anticlockwise rotation：反时针方向旋转

anticathode 对阴极 | anticlockwise rotation 反时针方向旋转 | anticollision system 防撞系统

grid：栅极

现代的真空管共由4种基本构件组成:极对灯丝(Filament)(加热用)、阴极(Cathode)、栅极(Grid)和阳极(Anode). 当极对灯丝连上电压对阴极加热,激发阴极电子通过栅极打在阳极上. 通过这样的电子流,电子管可以将较小的交流电放大成较强的信号,

antikathode：对阴极

anti-interference 抗干扰 | antikathode 对阴极 | antimagnetic 防磁