Evaluation of overcharge protection life in nickel cadmium cells with nonnylon separators

The Twelfth Annual Battery Conference on Applications and Advances Pub Date : 1997-01-14 DOI:10.1109/BCAA.1997.574076

D. Scoles, Za Johnson, J. W. Hayden, David Pickett

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引用次数: 3

Abstract

Hydrogen gassing and the potential for cell rupture in aerospace nickel cadmium cells is directly related to loss of overcharge protection built into the cell during manufacturing. It is well known that cells having nylon separators contribute to this loss via a hydrolysis reaction of the nylon in the potassium hydroxide electrolyte environment in the cell. The hydrolysis reaction produces lower chain organics which are oxidized by the positive electrode and oxygen. Oxidation of the organics diminishes the overcharge protection. With introduction of the Super NiCd/sup TM/ and the Magnum/sup TM/ nickel cadmium cells the nylon hydrolysis reaction is eliminated, but any reducing agent in the cell such as nickel or an organic additive can contribute to loss of overcharge protection. The present effort describes analyses made to evaluate the extent of overcharge protection loss in cells which do not have nylon hydrolysis and quantifies the diminished amount of overcharge protection loss as a result of eliminating nylon from aerospace cells.

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非尼龙隔板镍镉电池过充保护寿命的评价

航空镍镉电池中的氢气和电池破裂的可能性与制造过程中内置的电池过充保护的损失直接相关。众所周知，具有尼龙分离器的电池通过在电池中的氢氧化钾电解质环境中尼龙的水解反应导致了这种损失。水解反应产生被正极和氧氧化的下链有机物。有机物的氧化降低了过充保护。随着Super NiCd/sup TM/和Magnum/sup TM/镍镉电池的引入，尼龙水解反应被消除，但电池中的任何还原剂(如镍或有机添加剂)都可能导致失去过充电保护。目前的努力描述了为评估没有尼龙水解的电池中过充保护损失的程度而进行的分析，并量化了由于从航空航天电池中去除尼龙而减少的过充保护损失量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Twelfth Annual Battery Conference on Applications and Advances

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