本文介绍了国外免维护铅蓄电池板栅合金研制动向。
A review is given on the developments and trends of the grid alloys in lead acid batteries from abroad.
目前使用的铅蓄电池板栅合金主要是铅锑合金和铅钙合金。
Pb-Sb and Pb-Ca alloys were generally used as the grid material for lead-acid batteries.
因此稀土铅锑合金可以用作免维护铅酸蓄电池板栅合金材料。
Thus the alloys could be used as the grid material of maintenance-free lead-acid batteries.
本文就板栅合金、和膏方程、装配压力、快速充电等方面阐述VRLA蓄电池技术。
Techniques for VRLA batteries such as grid alloy paste-mixing equation . assembling pressure and rapid charge were explained.
系统地研究了不同板栅合金的耐腐蚀性、析气性能、表面腐蚀层阻抗等电化学性能。
Electrochemical performances of different grid alloys, including the performances of corrosion resistance, gassing evolution and the impedance of corrosion layer, were studied systematically.
对蓄电池板栅合金和铅粉中加铋的作用与机理进行了深入的分析和全面的总结,并对铅粉用铅的杂质含量及其影响进行了讨论。
The effect and mechanism of bismuth in grid lead alloys and lead oxide on lead-acid battery have been analyzed deeply and reviewed widely.
改进的铅膏和板栅合金配方提高了VRLA电池充电接受能力和循环寿命,这是解决VRLA电池早期容量损失(PCL)的有效途径之一。
Improvements of the recipe of pastes and lead alloys can increase the charge acceptance of VRLAB, and it is an effective approach to solve the PCL problem of the VRLAB.
使用特殊的钙铅锡合金板栅,更耐腐蚀,充电接受能力更好。
Use special calcium lead tin alloy plate grid, more resistant to corrosion, charging accept ability is better.
对VRLA电池板栅设计进行了分析,阐述了不同应用的VRLA电池的板栅外型尺寸、厚度、合金材料、单片极板容量的设计。
This paper analyzes the design of grid for VRLA batteries, including grid size, grid thickness, grid alloy and the capacity of piece of plate.
寿命经过4个大循环单元后,铅基合金腐蚀断裂,而复合钛拉网板栅仍然完好,没有明显腐蚀,只是活性物质有些脱落。
After 4 cycles, the Pbbased alloy grid is broken whereas the composite ti expand grid is in good condition and has no obvious corrosion except the little shedding of active material.
正板栅用低锑合金,负板栅用铅钙合金的汽车用铅酸蓄电池,有时会出现早期容量衰减现象。
Automotive lead acid batteries using low Sb positive grids and Pb ca negative grids sometimes suffer from the phenomena of premature capacity loss (PCL).
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.
银合金板栅:具有更强的抗腐蚀性,更大的放电效果。
Sliver alloy grid: Stronger resistance to corrode, more effective discharging.
所述铅合金提高了太阳能储能铅酸蓄电池的板栅的耐腐蚀性、机械性能、电化学性能和增加循环寿命。
The leaded alloy improves the corrosion resistance, mechanical property and electrochemical property of a slab lattice of a solar accumulator lead-acid battery and prolongs the cycle life thereof.
所述铅合金提高了太阳能储能铅酸蓄电池的板栅的耐腐蚀性、机械性能、电化学性能和增加循环寿命。
The leaded alloy improves the corrosion resistance, mechanical property and electrochemical property of a slab lattice of a solar accumulator lead-acid battery and prolongs the cycle life thereof.
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