Atmospheric pressure low-temperature plasma surface treatment system is a surface treatment technology that can modify the surface of materials at room temperature to improve its performance.
System principle. Atmospheric pressure and low temperature plasma surface treatment system is a technology that uses plasma to modify the surface of materials at room temperature. The system uses a microwave plasma source to control the plasma formation and reaction process by adjusting parameters such as discharge power, reflectivity, and gas flow. Plasma can form a chemical reaction on the surface of a material, changing the chemical composition and structure of the surface, thereby improving the performance of the material.
Processing effects. Atmospheric pressure low-temperature plasma surface treatment systems can modify a variety of materials, including metals, ceramics, plastics, fibers, etc. The surface of the treated material has good corrosion resistance, wear resistance, adhesion and conductivity. The system can also be used in areas such as surface coating and preparation of nanomaterials.
Fields of application. Atmospheric pressure and low temperature plasma surface treatment systems have a wide range of applications in aerospace, automotive, machinery, electronics and other fields. For example, it can be used to prepare high-strength and high-corrosion resistant aviation materials, improve the performance and life of automobile engines, and prepare electronic materials with high conductivity.
Merit. Atmospheric pressure low-temperature plasma surface treatment systems offer many advantages. The processing process is carried out at room temperature and does not affect the basic properties of the material. The process is simple, fast and can be mass-produced. The system also enables local treatment of the material surface, increasing the flexibility of the treatment.