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E-cigarettes, also known as electronic cigarettes or vapors, have become widely popular as an alternative to traditional tobacco. The working principle of these cigarettes is to evaporate the liquid products, which usually contain nicotine, flavorings and other chemicals. Understanding the underlying mechanism of the working principle of e-cigarettes is helpful for grasping its working principle.
There are several key factors for e-cigarettes: batteries
Turn on the power of the equipment. The atomizer is the heating element responsible for evaporating the electronic liquid. The liquid storage tank or bomb holds electronic liquid.
Vaporization process
When the user inhales or presses the button (depending on the device), the battery powers the nebulizer. Heating atomizers are usually heated by coils made of resistance coils. The e-liquid in the achromatic storage tank or ink cartridge is drawn into the coil and absorbed there. The heat generated by the vaporization coil turns the e-liquid into vapor, which is then inhaled.
Battery operation
Electronic cigarettes generally use rechargeable batteries to provide the necessary power for atomization.
Safety functions such as overcharge protection and short-circuit prevention are often incorporated in the design.
The types of e-liquids
E-liquid usually contains a mixture of auxiliary materials such as propylene glycol (PG), vegetable glycerin (VG), nicotine (voluntary), and flavoring agents. PG and VG serve as carriers for nicotine and flavoring agents. When heated, they produce smoke. The flavoring agents are rich and diverse, ranging from traditional tobacco flavors to fruit flavors and food flavors, catering to the preferences of different consumers.
Understanding the working principle of e-cigarettes helps to understand their functions and the complexity in their design. With the evolution of regulations and the advancement of exploration, the continuous review of the use of e-cigarettes remains crucial for safeguarding public health.