Vape coils come in an extensive array of types, from twisted coils to fused Claptons and even tiger coils – the possibilities are virtually limitless.

Every type of vape คอยล์ has its own distinct features, such as heat-up time and resistance level. When selecting the right coil for your preferred style of vaping and e-liquid ingredients, it is essential to take into account these details.

  1. Clapton Coils

Clapton Coils are one of the most sought-after types of coils, offering high vapor production, intense flavor, and a warm vape experience. However, they tend to be more expensive than other coil types and require an extended ramp-up time before reaching full power.

A standard Clapton coil consists of a thinner gauge wire tightly wrapped around a thicker gauge core. This design offers slow ramp-up time but is considered more flavorful due to its texture and larger surface area.

Fused Clapton coils are created by winding a thinner gauge wire over two or thicker gauge cores, creating an expansive surface area and quicker ramp-up times than using standard Clapton wire.

  1. Mesh Coils

For advanced vapers looking for optimal Sub-Ohm performance, Mesh Coils are a must-have. Their large heating area allows them to heat up more e-liquid at a faster

When choosing a coil type, personal preference should be taken into consideration. Mesh coils are ideal for those looking to extend battery life and reduce e-liquid costs; however, the standard coiled wire can also be an option.

  1. Vertical Coils

Vertical coils are a popular choice for atomizers with bottom air holes and some sub-tanks as well. They offer several advantages over horizontal coils, such as their large core diameter and capacity to produce plenty of vapor.

Direct airflow through the coil allows for a more authentic vape experience, especially when used in a tank. These types of coils come wrapped in hemp fiber or cotton; if you want something special, Rayon can also be used, which helps enhance flavor.

  1. Triangular Coils

Advanced Personal Vaporizers (APVs) has become a go-to choice for advanced users looking to maximize their experience. This is due to the fact that APVs generate more electrical power, enabling them to heat up faster and vaporize liquid faster.

Triangular coils can be more challenging to model than circular or rectangular shapes, but this paper presents an analytical solution for calculating the electromagnetic field, self-, and mutual inductance of arbitrary triangular coils with a rectangular cross-section based on a second-order vector potential.