The principle of e-cigarette technology mainly revolves around its core components and working process, as follows:
Core component
Electronic cigarettes are generally composed of three parts: batteries, atomizers and cartridges. The battery is the power source of e-cigarettes, providing electrical energy for the entire system. The atomizer is the core component of e-cigarettes, responsible for converting the liquid substances in the cartridges into inhalable aerosols. E-liquid cartridges usually contain e-liquid, and some also have parts such as a suction nozzle, which is convenient for users to suck.
Work process
Power supply trigger: When the user inhales or presses the e-cigarette switch, air passes through the e-cigarette, triggering the battery to supply power to the atomizer.
Liquid atomization: The heating element (usually the heating wire) in the atomizer will heat up rapidly. The e-liquid in the cartridges will vaporize in a short time after coming into contact with the high-temperature heating element, forming tiny droplets.
Forming aerosols: These droplets mix with air to form aerosols, simulating the visual effect and inhalation sensation of traditional cigarette smoke for users to inhale.
Atomization technology type
Electric heating atomization: A battery is used to supply power to a low-resistance resistance wire to generate Joule heat, which heats the smoke bomb through heat conduction to form smoke. However, the batteries are generally lithium batteries, which are prone to swelling, leakage, failure to discharge power, and are also likely to explode, posing significant safety hazards.
Ultrasonic atomization: It uses an ultrasonic converter to convert electrical energy into low-frequency mechanical energy. The vibration of the mechanical energy causes cavitation in the tobacco liquid film, resulting in atomization. However, the ultrasonic energy is not concentrated and the atomization efficiency is low.
Surface acoustic wave atomization: It converts electrical energy into high-frequency vibration mechanical energy, and the liquid is atomized under high-frequency vibration. However, in the current technology, most of the energy in high-frequency circuits is converted into heat energy, resulting in a high probability of power device burnout and low energy conversion efficiency.
Microwave heating atomization: High-frequency electromagnetic waves are applied to the cigarette cartridge. Under the disturbance of the high-frequency electromagnetic waves, the polar molecules in the cigarette cartridge rotate at high speed, generating a large amount of heat, thereby heating the cigarette cartridge and atomizing it to produce smoke. However, at present, most of them use microwave resonant cavities for resonant heating, which results in high transmission loss and limited transmission distance. Tobacco that is far from the microwave source can still only be heated by heat conduction, and the heating is uneven.The rich and mellow flavor of milk-flavored e-cigarettes is a key trait that attracts many consumers. It is comprehensively presented from multiple aspects such as aroma, taste, ingredient combination, and atomization effect. The following is a detailed explanation for you:
Aroma level
Rich milk aroma: The e-cigarette with a mellow milk flavor can emit a rich and pure milk aroma. This aroma is not a single and thin milk flavor, but has a rich layering. For instance, it might blend the rich flavor of milk, the silky aroma of cream, and even capture a sweet scent similar to condensed milk. When the user approaches the e-cigarette and has not yet inhaled it, they can smell the rich milk aroma wafting towards them. This intense fragrance lays the foundation for a mellow and rich feeling.
Long-lasting fragrance: After inhaling a milk-flavored e-cigarette, the milk fragrance will linger in the mouth and nasal cavity for a long time. This lingering fragrance is not short-lived or fleeting, but can last for a period of time, making the user feel as if they have just finished a cup of rich milk, with an endless aftertaste. For instance, during conversations or breaths, a faint milk aroma can still be smelled, further enhancing the rich and mellow feeling.
In terms of taste
Smooth and delicate experience: The rich milk-flavored e-cigarette presents a smooth and delicate taste. When the smoke flows in the mouth, there is no roughness or graininess, just as smooth as milk sliding over the tip of the tongue. This silky texture makes the user feel comfortable, as if they were enjoying a feast for the taste buds.
Rich texture presentation: Unlike some light-flavored e-cigarettes, milk-flavored e-cigarettes have a rich texture. When inhaling, one can clearly feel that the smoke has a certain “weight” in the mouth and throat and is not too thin. This thick texture gives people a sense of fulfillment and satisfaction, just like drinking a cup of rich milk tea, allowing one to experience the mellow flavor.
The aspect of ingredient combination
A blend of multiple milk-flavored ingredients: To create a rich and mellow experience, milk-flavored e-cigarettes typically use a variety of ingredients with distinctive milk-flavored characteristics in combination. For instance, in addition to the common milk flavoring, cream flavoring, cheese flavoring, etc. are also added. These components blend and complement each other, jointly creating a rich and mellow milk flavor. Different proportions of flavoring will also produce different effects. After careful blending, it can make the milk flavor more rich and mellow.
The sweetness and milk flavor are well balanced: The rich milk flavor of the e-cigarette also does a good job in balancing sweetness and milk flavor. Excessive sweetness will mask the milk flavor and make the taste overly sweet and greasy. If the sweetness is too low, the rich and mellow flavor of the milk cannot be highlighted. An appropriate level of sweetness can enhance the appeal of the milk flavor, making it more prominent, while also preventing it from being overly sweet and cloying. This perfect balance of sweetness and milk flavor further enhances the rich and mellow taste of the e-cigarette.
In terms of atomization effect
Rich and dense smoke: The excellent atomization effect can make the milk-flavored e-cigarette produce rich and dense smoke. When inhaled by the user, the smoke can fully fill the mouth and lungs, giving a rich and mellow feeling. The rich smoke can also better carry the milk aroma components, allowing the fragrance and taste to be more fully displayed.
Smoke stability: A stable atomization effect is also an important factor in ensuring a rich and mellow feel. If the atomization is unstable, the smoke may vary in size and the taste may be inconsistent, thus affecting the experience of the rich and mellow sensation. The stable atomization can ensure that every puff of smoke inhaled has a similar rich taste and a strong milk aroma.