RU2055423C1 - Electrode of lead-acid cell - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: active mass is deposited on current lead made from lead-calcium alloy and coated with alloy containing zinc 0.7-1.2 per cent by mass, tin 7.0-10.0 per cent by mass and lead being the balance. EFFECT: increased corrosion resistance, improved electrical characteristics and prolonged service life. 1 tbl

Description

 The invention relates to the electrical industry and can be used in the manufacture of lead batteries.

 Both in the analogue and in the prototype it is proposed to cover the surface of the electrode array with tin or an alloy of lead with tin. Both solutions lack zinc supplementation. This leads to the main disadvantage of the known solutions in the manufacture of a positive electrode for a lead battery, namely, the insufficient corrosion resistance of tin and Pb-Sn alloy in sulfuric acid, which leads to the formation of lead sulfate, resulting in increased contact resistance at the collector-active mass interface, and reduced life service and capacitive characteristics of a lead battery.

 The present invention is aimed at solving the problem of increasing the capacitive characteristics and service life of a lead battery by increasing the corrosion resistance of the coating of the collector of lead-calcium alloy, which leads to improved electrical contact of the collectors with the active mass.

This is achieved by the fact that the known electrode of a lead battery containing a lead collector of a lead-calcium alloy with a layer of an alloy including tin and lead deposited on it, and an active mass, an alloy including tin and lead, additionally contains zinc in the following ratio, wt . Zinc 0.7-1.2 Tin 7-10 Lead Else
A comparative analysis with known solutions for manufacturing a positive electrode of a lead battery shows that the proposed solution is new.

 The invention is illustrated by examples of its implementation.

PRI me R 1. On the collector of lead-calcium alloy is applied electrolytically from hydrofluoride electrolyte layer of Pb-Sn-Zn alloy with a ratio of components, wt. Zinc 0.7 Tin 7 Lead 92.3
Cathode current density is 1 A / dm ^2, electrolyte temperature 22 ° ^C. At protected collector alloy layer applied pasty active mass.

PRI me R 2. As in example 1, on the collector of lead-calcium alloy is applied electrolytically a layer of the alloy Pb-Sn-Zn at a ratio of components, wt. Zinc 0.9 Tin 8 Lead 91.1
After that, an active mass is applied to the collector, as in example 1.

PRI me R 3. As in example 1, on the collector of lead-calcium alloy is applied electrolytically a layer of the alloy Pb-Sn-Zn at a ratio of components, wt. Zinc 1.2 Tin 10 Lead 88.8
After that, the active mass is applied to the collector, as in example 1.

As shown by experimental data (see table), a coating of a lead-tin-zinc alloy in the following ratio of components in the alloy, wt. Zinc 0.7-1.2 Tin 7-10 Lead Else
provides higher capacity characteristics and longer service life compared to the prototype by increasing the corrosion resistance of the coating of the collector of lead-calcium alloy.

Claims (1)

LEAD BATTERY ELECTRODE containing a lead collector of lead-calcium alloy with a layer of an alloy of tin and lead deposited on it, and an active mass, characterized in that the alloy including tin and lead additionally contains zinc in the following ratio of components, wt.% :
Zinc - 0.7 - 1.2
Tin - 7.0 - 10.0
Lead - Else

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