Traditional coils: The problem of carbon deposits and uneven heating
The traditional coil is usually of a wire-wound structure. During the atomization process, the current passes through the spiral-shaped heating wire to generate heat, which in turn heats the e-liquid. However, this structure has inherent deficiencies. Firstly, due to the spiral shape of the heating wire, it is difficult to achieve uniform heat distribution. During continuous operation, certain local areas will generate high temperatures due to excessive heat concentration, accelerating the carbonization of impurities in the e-liquid and forming carbon deposits. Once carbon deposits form, they not only affect the resistance of the heating wire, leading to a decrease in heating efficiency, but also adsorb e-liquid, hindering the normal atomization process.
As the number of suctions increases, carbon deposits will gradually accumulate. During the usage cycle of 12,000 ports, the impact may not be obvious in the early stage, but in the middle and later stages, the problem of carbon deposits will become increasingly serious. The atomization efficiency will thus drop significantly, the amount of smoke will decrease markedly, and at the same time, the flavor of the e-liquid cannot be fully released. The taste will become thin and may be accompanied by a burnt flavor. Moreover, the heat dissipation of traditional coils is relatively slow. After long-term continuous use, the excessively high temperature will further accelerate the formation of carbon deposits, creating a vicious cycle and accelerating the rate of decline in atomization efficiency.
Mesh coil: The advantages of high efficiency and stability
The mesh coil adopted by FUMOT Vape 12000 has obvious advantages in structure. Its reticular structure greatly increases the contact area with the e-liquid, enabling the e-liquid to be heated more evenly. During the atomization process, the heat distribution is more uniform, reducing the risk of carbon deposits caused by local overheating. Moreover, the design of the mesh coil helps accelerate air circulation and promote heat dissipation. During continuous use, it can better control the temperature and avoid a series of problems caused by high temperatures.
From the perspectives of material and craftsmanship, high-quality mesh coils usually select materials with good stability and high-temperature resistance, and the manufacturing process is meticulous, ensuring the stability and consistency of the structure. During a usage cycle of 12,000 ports, the mesh coil can maintain a relatively stable atomization efficiency. The e-liquid can always be fully atomized, the smoke volume is stable, and the flavor can also be continuously and stably output. Even in the later stage of use, the decline in vaping efficiency is much smaller than that of traditional coils, which can continuously provide users with a rich and pure vaping experience.
Comparison and summary
During the usage cycle of 12,000 ports, the atomization efficiency of the traditional coil decays significantly due to problems such as carbon deposits and uneven heating, seriously affecting the usage experience. The mesh coil of FUMOT Vape 12000, with its advantages in structure, heat dissipation and material technology, effectively delays the attenuation of atomization efficiency and can maintain good performance throughout the entire usage cycle, bringing users a more lasting and stable atomization experience. This also highlights the advanced nature and development potential of the mesh coil technology in the field of e-cigarettes, and is expected to drive the industry to continuously progress in atomization technology.