水的软化装置可能加速阳极棒的损耗。如果使用软化(或经过磷酸盐处理)的水,应该更加经常检查阳极棒。
The use of a water softener may increase the speed of anode consumption. More frequent inspection of the anode is needed when using softened (or phosphate treated) water.
另外,附加电极的引入也为降低加速阳极电位和偏转电极电位从而提高偏转系统的灵敏度提供了一定的空间。
And also, the possibility of lowering the potentials of accelerating anode and deflecting plate is largely enhanced by the modification to the optical system.
选用合适的阳极和阴极材料可以加速电化学反应速率,有助于有机物的电化学转化。
The appropriate choice of anodic and cathodic material is effective for the acceleration of electrochemical reaction rate, which favors electrochemical conversion of organic matters.
采用锌阳极和铝阳极的防止腐蚀方法虽能防止铬钼钢腐蚀,但对其裂纹的扩展起明显的加速作用。
The Zinc and Aluminum anode protector can prevent the Cr-Mo steel from corrosion. However, it has the obvious effect of accelerating the crack propagation.
盐雾实验中,盐的浓度、大阴极小阳极的面积比以及阴极材料相对于镁阳极的尺寸是加速镁合金电偶腐蚀的重要因素。
The concentration of salt and the relative areas of the large cathode coupled with a small magnesium alloy anode have an important effect on the accelerated galvanic corrosion in salt spray test.
介绍了一种以微通道板和电阻阳极所构成的位置灵敏探测器为基础、用于兰州重离子加速器束流诊断的新型剩余气体电离束流剖面探测系统。
The detecting system is based on the residual gas ionization principle and consisted of electrostatic collecting plates, micro-channel plates and a resistive anode.
镁合金与异种合金偶接后,作为阳极被加速腐蚀,腐蚀产物呈龟裂状附着在镁合金基体表面。
AZ31 magnesium alloy was accelerated as anode coupled with dissimilar alloys. The rimous corrosion products sticked to the surface of magnesium alloy.
同时,大的阴阳极面积比会加速AZ 91 D镁合金的电偶腐蚀速率,且AZ 91 D镁合金的电偶腐蚀电流随阴阳极面积比的增大而呈线性增长趋势。
Moreover, larger CAAR would result in faster galvanic corrosion, and the galvanic current of AZ91D magnesium alloy increased linearly with the increase of CAAR.
同时,大的阴阳极面积比会加速AZ 91 D镁合金的电偶腐蚀速率,且AZ 91 D镁合金的电偶腐蚀电流随阴阳极面积比的增大而呈线性增长趋势。
Moreover, larger CAAR would result in faster galvanic corrosion, and the galvanic current of AZ91D magnesium alloy increased linearly with the increase of CAAR.
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