Atomization is the process of breaking down a large amount of liquid into droplets. In the atomization process, the core is a coil. This article will carefully study the benefits of using FEELM ceramic coils.
Atomization is a very common process in daily life, which is performed by humidifiers, facial steamers, demisters and other equipment. Atomization technology varies widely, but the core of the process is the coil. Nowadays, coil materials are very different, including glass fiber, organic cotton and metal mesh, but ceramics have developed into an important part of high-quality coils. What are the advantages of ceramics over other materials?
The ceramic materials used in the coils are different from the types commonly used in pottery and other everyday objects. It is designed with a porous microstructure to form a special composition.
The FEELM coil is composed of a ceramic substrate and a layer of metal film. The ceramic is sintered at high temperature and formed into a bowl shape. The metal film is printed on the surface of the substrate in the form of an "S" to provide effective and uniform heating, just like stoves and pots in cooking. The atomizer evaporates the e-liquid into vapor when the e-liquid is heated by the metal film at a precise temperature.
The raw materials used in FEELM coils are processed minerals from nature. After a special molding, drying and high-temperature sintering process, interconnected micropores will be formed inside. The average pore size is about one-fifth the width of a human hair.
The micropores found in the FEELM coil play a vital role in guiding and locking the e-liquid inside the substrate during the opening and closing process of vaporization. Due to surface tension and capillary action, e-liquid can penetrate through the substrate and be absorbed on the surface.
The porous ceramic coil has a strong absorption capacity and
Similar to activated carbon, it is widely used in many household appliances, such as water filters, refrigerator deodorants, facial masks and toothpastes.
Compared with other materials such as fiber and cotton, the physical structure, material properties and industrial design of the FEELM coil help to increase the temperature more quickly and evenly distribute the temperature on the surface of the substrate. This precise temperature control achieved by FEELM technology can greatly reduce the amount of aldehydes and ketones produced during the vaporization process.
Moreover, the uniform heating of the FEELM coil can effectively eliminate most of the carbonic acid and reduce the scorch problem that has plagued the e-cigarette industry since the advent of e-cigarettes.
The aerosol particles produced by the FEELM ceramic coil are less than 1μm, which can better absorb the lungs, have a stronger flavor and higher satisfaction.