Manufacturing method of resistance heating layer and ceramic atomizing core, and ceramic atomizing core: Fid-Bau Portal

Manufacturing method of resistance heating layer and ceramic atomizing core, and ceramic atomizing core

LI BIAO / XIA YOUYIN

The invention provides a manufacturing method of a resistance heating layer and a ceramic atomization core and the ceramic atomization core, the ceramic atomization core comprises a ceramic substrate, a conductive circuit and a resistance heating layer, the conductive circuit is arranged on the outer surface of the ceramic substrate, the resistance heating layer covers the outer surface of the ceramic substrate and the conductive circuit, and the resistance heating layer covers the conductive circuit. And the resistance heating layer is carved into a specified shape. The atomization core heating element has the advantages that the thickness of the resistance heating layer can be very thin and can be directly smaller than 0.01 mm, the resistance heating layer formed through vacuum plating is compact in internal structure, and the latticed lines formed through laser engraving are uniform, so that the atomization core heating element formed through the resistance heating layer is not prone to deformation, and the atomization core heating element is not prone to deformation. As the thickness is very thin, the interior is compact and the width is uniform, the rate of heating to a set temperature after electrification is greatly improved.

本发明提供了一种电阻发热层及陶瓷雾化芯的制造方法、及陶瓷雾化芯，该陶瓷雾化芯包括陶瓷基体、导电线路、电阻发热层，所述陶瓷基体外表面设有所述导电线路，所述电阻发热层覆盖所述陶瓷基体外表面及所述导电线路，所述电阻发热层被雕刻成指定的形状。本发明的有益效果是：本发明的电阻发热层的厚度能做到很薄，直接就可以做到0.01mm以下，而且，通过真空电镀形成的电阻发热层，内部结构比较致密，加之激光雕刻的网格状线条，彼此之间也比较均匀，由此形成的雾化芯发热元件，由于厚度很薄、内部致密且宽度均匀，通电后发热到设定温度的速率就大大提高。

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