The lifespan of the atomization core varies depending on the user's usage habits. Some people may use the same atomizing core for half a month, while others can only use it for three days. So what factors affect the lifespan of the atomization core?
A. Power. The atomization core has a certain power range that can withstand. If the output power set by the user is too high, the high temperature generated by the coil will excessively evaporate the tobacco oil, and the surrounding cotton will burn the cotton before it can replenish the tobacco oil, producing a sticky taste and affecting the taste and taste.
B. Tobacco oil. The biggest impact of e-liquid on the lifespan of atomization cores is carbon buildup. Different brands of tobacco oil have different raw materials and additives, which can lead to different rates of carbon accumulation. For example, "Malay e-liquid" is widely recognized as a "high carbon deposition rate" e-liquid, so it is best to use it with an RBA atomizer. Even if carbon deposition quickly forms and affects the taste and use, a new atomization core can be made.
C. Incorrect usage method. Most finished atomizers have already installed atomization cores at the factory. It is best for users to first remove the atomization core, and drop a small amount of tobacco oil into the cotton around the guide oil hole and coil to wet the cotton. This step is called "moistening the core" by some. The purpose of doing this is to wet the cotton in advance, so that it can absorb the tobacco oil more smoothly. If the atomization core is not completely saturated, there is a possibility of burning cotton and sucking in a sticky taste after ignition.
D. High VG e-liquid. Generally speaking, the higher the VG, the greater the amount of smoke, the thicker the oil, and the poorer its fluidity. So high VG content e-liquid often needs to be used in conjunction with large smoke atomizers, such as drip atomizers. However, the oil guiding system of some finished oil storage mouthfeel atomizers cannot cope with high VG ratio of smoke oil, and may burn the atomization core due to the inability to keep up with the oil guiding speed. Therefore, the PG/VG ratio of smoke oil is also a factor affecting the service life of the atomization core.

