SU432620A1 - - Google Patents

Description

(54) ELECTROLYTE FOR PRIMARY ELEMENT

one

An electrolyte is known for a primary cell consisting of iodine, metal iodide and an organic solvent. As the latter, substances of various classes — alcohols, ketones, chlorine and bromine derivatives of carbon, nitrobenzene, dimethyl sulfoxide, and some others — have been tested.

However, for a number of reasons - insufficient chemical resistance (for example, alcohols), high melting point (dimethyl sulfoxide), low dielectric constant and, as a result, low electrical conductivity (halo carbons), low solubility in them formed during operation of the metal iodide element falling into sludge and shielding anode, these systems have not found practical application at low temperatures.

To improve the electrical characteristics at low temperatures, dimethylformamide is proposed as an organic solvent.

Dimethylformamide, due to its high chemical resistance, makes it possible to use as active substances such elements as iodine, cadmium, zinc, magnesium, lithium, and calcium, which provide high e. d.

The significant dielectric constant of dimethylformamide makes it possible to obtain electrolyte solutions with high electrical conductivity in it, which, due to the stabilizing effect of the complex formation of metal iodide with elemental iodine, is almost constant. In addition, dimethylformamide also interacts with iodides of a number of anodic metals (for example, zinc or cadmium) with an alkali metal iodide, which reduces the viscosity of the system, which improves the electrical characteristics of the lastiiii. A low freezing point and a high boiling point of dimethylformamide allows it to create electrolyte solutions in it that work within a wide range.

own temperatures: from minus 60-65 ° C to plus 80 ° C and above.

The sufficiently high solubility in iodides used in dimethylformamide, used as a metal anode, provides significant density of the discharge current and long-term operation of the primary element.

Low viscosity, high enough electrical conductivity of iodine-iodide system

metal-dimethylformamide at negative temperatures make it possible to use the specified electrolyte in activated primary cells with their rapid commissioning at temperatures of the order of minus

60 ° C. 3 Subject of the invention The electrolyte for the primary element, consisting of iodine, metal iodide and organic solvent, characterized by heme, 5 4 which, in order to improve the electrical characteristics and negative temperatures, was taken as organic solvent.