Simple and high-efficiency method for improving endurance of rechargeable battery and high-efficiency battery endurance patch
A high-efficiency, rechargeable battery technology, applied in the direction of secondary battery charging/discharging, secondary battery, secondary battery repair/maintenance, etc., can solve problems such as obstruction and power consumption, and achieve shortened charging time, extended life, and reduced crystallization effect
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Embodiment 1
[0037] A simple and efficient method for improving the battery life of a rechargeable battery. A high-efficiency battery life sticker is provided on the outside of the rechargeable battery, and the relative position of the high-efficiency battery life sticker and the rechargeable battery remains unchanged;
[0038] The high-efficiency battery life sticker includes a far-infrared ceramic layer.
[0039] The far-infrared ceramic layer includes the following parts by weight:
[0040] Self-emitting far-infrared ceramic powder at room temperature: 3 parts;
[0041] Rubber: 7 parts. The above-mentioned substances are mixed according to the weight parts to obtain the far-infrared ceramic layer.
[0042] The far-infrared emissivity of the self-emissive far-infrared ceramic powder at room temperature is 0.94, the wavelength is 12-14um, and the particle size is 4μm. The negative ion concentration of the far-infrared ceramic layer is 3200 / cm 3 .
Embodiment 2
[0044] like Figure 1-Figure 3 As shown, a high-efficiency battery life sticker that is simple and efficient to improve the battery life of a rechargeable battery includes a flexible base 1, a far-infrared ceramic layer 2 located on the flexible base 1, and a far-infrared ceramic layer 2 bonded on the far-infrared ceramic layer 2 away from the The adhesive layer 3 on one side of the flexible substrate 1.
[0045] The far-infrared ceramic layer 2 includes the following parts by weight:
[0046] Self-emitting far-infrared ceramic powder at room temperature: 3 parts;
[0047] Rubber: 7 parts. The above-mentioned substances are mixed according to the weight parts to obtain the far-infrared ceramic layer 2 .
[0048] The far-infrared emissivity of the self-emissive far-infrared ceramic powder at room temperature is 0.94, the wavelength is 12-14um, and the particle size is 4μm. The negative ion concentration of the far-infrared ceramic layer 2 is 3200 / cm 3 .
[0049] The flexib...
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