Plasma cutting is a metal processing technique that uses accelerated hot plasma jets to cut through materials. By generating high-temperature plasma on the metal surface, it can quickly and precisely cut through metal sheets such as steel and aluminum.
Compared to laser cutting, plasma cutting results in less vertical cut surfaces and rougher edges. However, due to its fast speed and low cost, plasma cutting is widely used in industries such as metal fabrication, automotive, shipbuilding, and aerospace.
Plasma activation is a method for increasing a material’s surface energy to enhance adhesion with coatings, adhesives, and inks. It is applicable to surface treatment of materials such as plastic, glass, and metal.
Plasma etching is a high-precision microfabrication technique used for producing microelectronic components, optical elements, and nano-microstructures. By using ions and reactive species in the plasma, materials can be precisely etched to create fine structures and details.
Plasma cleaning is a technique used to remove surface contaminants and residues from materials. The high-energy particles and reactive species in the plasma can effectively remove both organic and inorganic pollutants such as grease, coatings, and oxides. It is widely used in semiconductor manufacturing and optical component production.
A plasma light source is a high-brightness, high-stability lighting technology widely used in illumination, displays, and optical inspection. Its advantages include a wide range of color options and long lifespan.
