Preparation method of co-heating multi-monomer for thermal battery

Abstract

The invention discloses a preparation method of a co-heating multi-monomer for a thermal battery. The co-heating multi-monomer is composed of a multi-monomer layer (1), a buffer layer (2) and a heating layer (3), and the preparation method comprises the preparation of a heating sheet, a buffer heating sheet, a positive electrode, a negative electrode, a diaphragm and the co-heating multi-monomer.According to the co-heating multi-monomer for the thermal battery, the multiple monomers are molded at one time, so that the mechanical strength of an ultra-thin single sheet can be improved, and theapplication of the ultra-thin single sheet process in the field of high overload is facilitated. The heating mode of a traditional thermal battery monomer is changed from one-to-one heating to one-to-many heating to optimize the structure of the thermal battery monomer, so that the efficiency is improved, and the problem that the heating sheet is not matched with the heat of the ultrathin monomeris avoided. By a rotary blade-coating mode, the ultrathin insulating layers are blade-coated between the positive electrode and the diaphragm and between the diaphragm and the negative electrode in the monomers and between the multiple monomers, and the ultrathin insulating layers and the multiple monomers form an organic entirety, so that the short circuit problem of the ultrathin monomers is avoided, and the safety of the ultrathin heat supply multi-monomer battery is greatly improved.

Description

technical field [0001] The invention belongs to the technical field of thermal battery preparation, and in particular relates to a method for preparing co-heating multi-monomers for thermal batteries. Background technique [0002] Thermal battery is a heat-activated reserve battery. When stored at room temperature, the electrolyte is a non-conductive solid. When in use, an electric ignition head or a firing pin mechanism is used to ignite the heating agent inside, so that the electrolyte melts into an ion conductor and is activated. A reserve battery, the storage time is theoretically unlimited, and the actual measurable value is more than 17 years. Due to its small internal resistance, wide operating temperature range, long storage time, quick and reliable activation, and no maintenance, it has developed into an ideal power supply for modern weapons. [0003] With the rapid development of the field of thermal batteries, the preparation method of thermal battery single piec...

AI Technical Summary

Problems solved by technology

However, due to the thickness, the impact resistance of the single sheet is greatly weakened, and the mechanical strength is reduced, which seriously affects the application of thermal batteries prepared by these advanced processes in high overload fields.

Moreover, due to the flammable and explosive characteristics of the heating powder in the thermal battery, the space requirements for the preparation of the new process are relatively strict, and at the same time, the safety hazard is relatively large, so it is not suitable for these ultra-thin monolithic preparation processes

However, the traditional heating sheet cannot be used with the ultra-thin single sheet due to the high heat due to the large number of active material sheets.

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