同时介绍了减轻极板重量的方法。
The methods for reducing plates weight were proposed briefly.
有些极板是仪器的刚性部分;
提出采用拉浆工艺制备铅酸蓄电池薄型极板。
The technics of making thin lead-acid batteries plates by slurry method was proposed.
电能可储由一绝缘介质隔开的两块金属极板内。
We can store electrical energy in two metal plates separated by an insulating medium.
这些表面电荷部分地抵消金属极板上电荷的作用。
These surface charges partially nullify the effect of the charges on the metal plates.
将阴极与阳极板相组装,进行场致发射特性测试。
We pack the cathode panel with the anode panel and conduct the field emission experiment.
电极组件通过卷绕第一和第二电极板以及隔板形成。
The electrode assembly is formed by winding the first and second electrode plates and the separator.
用陶瓷材料做电介质,金属银做电极,金属极板做外壳。
Use ceramic materials as the dielectric, silver as electrode, and metal plate as shell.
实验表明,缩短发射极板宽度能有效地提高卡尺的精确度。
The experiments show that the accuracy can be improved efficiently by shortening the width of emitter plate.
金属极板还被深度刻蚀,从而极大地扩展了其表面的面积。
The metal plate is also deeply etched so as greatly to increase its surface area.
负极板膨胀剂配方开始包括木质一类的材料,如木屑或木粉。
Nagative expander formulas started to include such items of wood, as wood dust or wood flour.
极板上的探测器可以在一个方向聚焦,尽可能地贴靠在井壁上。
The pad holds sensors that are focused in one direction and must be as close as possible to the borehole wall.
当设备有槽侧的隔阂时,面临电极板和槽,壳有必要垂直于底部。
When equipment slotted side gap, face plate electrode and groove, perpendicular to the bottom of the shell and necessary.
这类负极板添加剂随着使用合成材料隔板而产生合乎需要的性能。
Such additions to the negative paste produced the desired performance with the use of synthetic separators.
他们应当去掉场极板和氧化层,并在整个区域淀积一层薄的铝薄膜。
They should remove the field plate and oxide and deposit a thin aluminum film over this region.
因此,负极板膨胀剂配方开始包括本质一类的材料,如木屑或木粉。
Thus negative expander formulas started to include such items of wood, as wood dust or wood flour.
由两层纳米管道的组成的平板就成为了一个电容器(每一层就如同一个极板)。
A sheet containing two layers of nanotubes is a capacitor (each layer ACTS as a plate).
为了行进电池的容量,多个正、负极板别离平行,横向焊接成正、负极板组。
Marching to the capacity of the battery, multiple parallel plate separation, positive and negative horizontal welding into positive and negative plate group.
就前者而言,正极板栅耐腐蚀性能和电池的水损耗速度乃是两个最主要的因素。
On the former, positive plate bar corrosion resistance and water of cell loss rate are the two main factors.
长音圈通常有高的电感量畸变-电感两随着音圈在极板中位置的改变而变化极大。
Long voice coils generally have higher Le distortion - inductance changes greatly based on the coil's location in the gap.
该项技术也有所提高,电浆火炬的主要成分是一对电极板,主要由以镍为主的合金制成。
The technology has got better, too. The core of a plasma torch is a pair of electrodes, usually made from a nickel-based alloy.
当硫酸放入极板组之间,就会发生化学反应,把一块极板中所含的电子聚结到另一极板。
When sulfuric acid is placed between the plates, chemical actions take place that remove electrons one group of plates and mass them at the other.
在等离子体中,鞘层在控制带电粒子向极板(或靶材)方向运动方面起着至关重要的作用。
In plasma, the sheath plays a crucial role in controlling the movement of the charged particles towards the electrodes (or the target).
对铜拉网板栅与铅合金板栅负极板性能的研究,有助于人们更好地利用铜拉网板栅负极板。
Research on the negative plates with copper-stretch-metal (CSM) and lead-alloy grids was helpful to take good use of negative plate with CSM grid.
机械本体部分包括动极板装置、静极板装置、提升装置,用以改变水电阻和传递机车电流。
The mechanical part includes locomotor pole plate set, static pole plate set, the lifting set, which changes the water resistance and transfer locomotive's electric current.
另有一些极板需要使用连接装置才能和下井仪器相连,测井时需要使用推靠臂才能紧贴井壁。
Others have articulated joints attaching them to the logging tool, with a backup arm to press the pad against the borehole wall.
由于德国阳光蓄电池材料不可能绝对的纯,且正极板与栅架金属(铅锑合金)本身也构成电池组。
Because Germany sunshine battery materials can't be absolutely pure, and positive plate metal, lead antimony alloy with the grid frame itself constitutes a battery pack.
采用胶体电解质技术,绝无酸液浓度层化问题,完全消除因浓度层化引起的极板腐蚀和钝化现象。
It has adopted colloid electrolyte technology, avoiding density stratification problem of acid solution and eliminating plate corrosion and passivation caused by density stratification.
实验结果证明:拉浆法制造的薄极板可以提高活性物质的利用率,改善了电池的大电流放电能力。
The results showed that the thin plates produced by slurry method could improve the utility of active material and the ability of high-rate discharge performance.
实验结果证明:拉浆法制造的薄极板可以提高活性物质的利用率,改善了电池的大电流放电能力。
The results showed that the thin plates produced by slurry method could improve the utility of active material and the ability of high-rate discharge performance.
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