FIELD: electrical engineering. SUBSTANCE: process includes production of starting components, per cent by mass: aluminium 62.0-84.0, tin 2.0-6.0; magnesium 8.0-20.0; zinc 3.0-6.0; nickel 3.0-6.0 with initial keeping in oxidizing atmosphere for 1-5 min, with subsequent keeping in reducing atmosphere for the course of 5-60 min, cooling, grinding and mixing with caustic potassium and powder of polymer ion-conductive resin with following proportion of components, per cent by mass: alloy 70.0-80.0; dry potassium 4.0-10.0; resin 16.0-20.0. Produced mixture is heated in high-frequency field of 180-500 kHz up to colloidal state. EFFECT: produced mass is characterized by high electrochemical activity.
| Title | Year | Author | Number |
|---|---|---|---|
| METHOD OF RECYCLING SPENT CHEMICAL CELLS | 2011 |
|
RU2486262C2 |
| ANODE FOR CHEMICAL SOURCE OF CURRENT, METHOD TO MANUFACTURE ANODE, CHEMICAL SOURCE OF CURRENT | 2010 |
|
RU2444093C1 |
| CHEMICAL POWER SUPPLY | 1998 |
|
RU2144245C1 |
| ANODE OF CHEMICAL CURRENT SUPPLY USING ALKALI ELECTROLYTE | 2004 |
|
RU2266589C1 |
| PROCESS OF FORMATION OF VOLUMETRIC-POROUS LAYER OF METAL WITH OPEN POROSITY ON CURRENT-CONDUCTING BACKING | 1999 |
|
RU2150533C1 |
| METHOD OF PREPARING METAL HYDROXIDES OR HYDROXOOXIDES BY DIAPHRAGM ANALYSIS | 1995 |
|
RU2153538C2 |
| PRIMARY CHEMICAL CURRENT SOURCE | 2014 |
|
RU2583453C2 |
| CHEMICAL SOURCE OF ELECTRIC ENERGY | 1993 |
|
RU2044371C1 |
| MULTIPLE-ELEMENT ELECTROCHEMICAL CAPACITOR AND ITS MANUFACTURING METHOD | 2010 |
|
RU2419907C1 |
| ELECTROCHEMICAL ENERGY STORAGE | 1997 |
|
RU2121728C1 |
