The trend of pursuing big vapes among e-cigarette enthusiasts worldwide is currently experiencing rapid growth. These individuals utilize e-cigarettes not only as a means to quit smoking by replacing nicotine but also to indulge in creating bigger vapor clouds.
The concept of creating massive vapor clouds with electronic vapor smog devices, commonly known as vapes or steam smoke, originated abroad. This trend has gained popularity among young people, becoming a fashion statement and a favorite pastime. Vaping enthusiasts are now able to produce impressive vapor clouds and perform tricks such as blowing smoke rings. With a wide range of brands and unique designs available, vapes come in various shapes, including round, square, and flat. Despite the differences in appearance, the fundamental structure and principles remain the same.
They consist of a main unit and an atomizer. The main unit houses the battery and circuit board, while the atomizer contains the atomizing core. The main unit supplies a stable power source to the atomizing core, and the heating wire within the core generates heat to vaporize the e-liquid. Higher power outputs from the main unit result in larger quantities of vapor and smoke, although it also leads to increased heat production.
To achieve bigger smoke clouds, several factors need to be considered:
E-liquid selection: The concentration of vegetable glycerin (VG) in the e-liquid plays a significant role in producing more vapor. E-liquids with higher VG content, such as those with 100% pure VG or 80% and 70% VG, are commonly preferred by vaping enthusiasts for achieving bigger clouds. However, VG content is often not indicated in domestic e-liquids. In such cases, users can purchase pure glycerin separately and mix it with the existing e-liquid at a desired ratio (e.g., 1:1).
Resistance and current: Lower resistance in the atomizer results in a higher current flow under fixed voltage conditions. This higher current generates more heat from the heating wire, leading to increased vapor production, assuming the e-liquid can reach the heating wire at a sufficiently fast rate.
Airflow: The volume of airflow passing through the heating wire directly impacts the amount of vapor that can be carried away from the wire and subsequently evaporated. In simpler terms, larger airflow results in more vapor.
Atomizer selection: Opting for an atomizer specifically designed for producing large vapor clouds is the easiest way to achieve the desired effect. With numerous products available in the market, it is crucial to conduct thorough research and choose an atomizer that suits personal preferences.
The aforementioned information serves as guidance for novices interested in pursuing big vapes. Beginners are advised to start with a pre-built coil atomizer, as it offers ease of operation and a user-friendly experience. For experienced users, venturing into DIY atomization is an option. This involves crafting a heating wire atomizer from scratch, providing a more customizable and hands-on vaping experience that requires a certain level of skill.
In conclusion, the global community of e-cigarette enthusiasts seeking big vapes is rapidly expanding. While these individuals initially turn to e-cigarettes as a means to quit smoking by replacing nicotine, they also find enjoyment in creating larger vapor clouds. By considering factors such as e-liquid selection, resistance, current, airflow, and atomizer choice, vaping enthusiasts can tailor their experience to produce impressive smoke clouds. Whether starting with a pre-built coil atomizer or delving into the world of DIY atomization, the pursuit of big vapes offers a diverse and engaging vaping experience for enthusiasts worldwide.
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