Performance Characteristics and Selection Analysis of Ceramic Atomizing Core Electronic Cigarettes
Atomization effect and taste advantages
Fine smoke: The micro-porous structure of the ceramic atomizing core (with pore diameters at the micrometer or sub-micrometer level) ensures that the e-liquid is evenly distributed and fully heated, generating fine and pure mist with a taste close to that of real tobacco.
Strong stability: The ceramic material is heat-resistant, and the heating film is evenly distributed, avoiding the problem of burnt core caused by local overheating, ensuring that the fullness and taste of each puff of smoke are consistent.
High reduction degree: For instance, the nano-microcrystalline ceramic core has a better reduction degree for nicotine, PG, and VG at different power levels than its competitors. With 20mg of nicotine salt, it can achieve a 30mg atomization level, meeting the demand for a rich taste at a low nicotine content.
Safety and durability
High-temperature resistance: Ceramic material can withstand long-term high-temperature operation, reducing the release of harmful substances and ensuring the health of users.
Anti-oil leakage design: The micro-porous structure achieves the liquid locking function, restricting the flow of e-liquid and avoiding the risk of leakage.
Long service life: The ceramic atomization core is not prone to aging and has better durability than traditional cotton cores, reducing maintenance costs.
User experience optimization
Undiminished taste: From the first bite to the last, there is almost no difference in the smoky taste and fullness, enhancing the long-term usage experience.
Compatible with various e-liquids: Ceramic atomizing cores have stronger compatibility with e-liquid concentrations, allowing users to freely choose according to their needs.
Core performance evaluation
Atomization technology: Give priority to brands that adopt advanced ceramic atomization technology to ensure the fineness of the smoke and the stability of the taste.
Heating film design: Pay attention to the uniformity of the heating film (such as the M-shaped uniform heating film design) to avoid taste differences caused by local overheating.
Microporous structure: The pore size and distribution of micropores directly affect the liquid conduction and liquid retention effects. Products with high porosity and uniform pore size should be selected.
Technical pursuit: Focus on innovative technologies such as nano-microcrystalline ceramic cores to enhance nicotine reduction and atomization efficiency, and reduce nicotine dependence.