SU119559A2 - Method of reducing gas evolution in charged hermetic alkaline cadmium-nickel batteries - Google Patents

Description

BASIC Auth. St. No. 118531 describes a method for increasing the capacity of a negative electrode of a cadmium-nickel battery, characterized by conducting a deep discharge of a battery from an external current source with evolution of hydrogen at the positive electrode and oxygen at the negative electrode and used, in particular, when forming the battery.

The proposed method expands the scope of use of the basic invention for the manufacture of hermetic nickel-cadmium batteries, allowing an increase in the yield of usable batteries, as well as the elimination of the operation of their formation.

In the production of compact hermetic w, Christmas-tree batteries, a large number of them do not satisfy the technological requirements and go into marriage due to the reduced capacity in a hermetically sealed state and the occurrence of an alkali leak through a sealing seal. These defects arise as a result of the formation of excess gases in hermetically sealed batteries, which are released during charging.

Elimination of these defects can be achieved by reducing the volume of gases released during charging. To this end, it is proposed to carry out a deep discharge on the last formation cycle, immediately before sealing the battery, by passing a current through an electrode from an external source.

With a deep discharge of an alkaline battery, cathodic polarization of the nickel electrode and anodic polarization of the cadmium electrode occur, as a result of which the active

M 119559

oxygen from the mass of nickel oxide and hydrogen from the cadmium mass. In addition, particles from both electrodes are loosely bound to the porous substrate (electrolytic degreasing effect).

Due to the almost complete discharge of active masses, the subsequent charge of the battery after sealing proceeds with a minimum gassing.

By reducing the pressure of gases in charged hermetically sealed alkaline batteries, they increase their capacity, preserve the vessels and reduce electrolyte leakage at the sealing sites.

Benefits arising from the use of deep discharge can be fully utilized in transferring deep discharge from the operation of forming batteries to the operation of forming positive and negative electrodes. In this case, electrodes with removed capacitance and with a cleaned surface will be supplied to the battery assembly. After assembly, the batteries must be filled with electrolyte, sealed and charged.

Subject invention

Claims (2)

1. Application of deep discharge hermetic alkaline cadmium-nickel batteries according to the method described in ed. St. No. 118531, after the formation of the battery, but immediately prior to its sealing, in order to reduce gas emission during charging. 2. A variation of the method according to claim 1, characterized in that a deep discharge according to the method described in the art. LL 118531, the electrodes are previously introduced into the battery vessel (i.e., prior to the assembly of the latter), and the battery is assembled from the electrodes with removed capacity and without a battery forming operation.