The Pulesi desktop plasma cleaning machine is a series of plasma surface treatment equipment with multiple advantages and features. The following is a detailed introduction:
Product features
Diversification: Capable of processing a wide range of materials, including metals, fabrics, polymers, glass, ceramics, and more.
Convenience: The equipment is compact, easy to move, and convenient to operate. The system control is simple, allowing for easy adjustment of parameters such as formulas.
Practicality: It can not only clean contaminants on the surface of materials, but also provide various effects such as activation and modification. By adjusting the formula, the surface of the item can be made hydrophobic or hydrophilic.
Affordability: The overall price of the equipment is favorable, allowing users to purchase suitable equipment with a lower budget.
Model and parameters
The small experimental tabletop vacuum plasma cleaning machine is lightweight and occupies a small area. The chamber is made of quartz glass and features an external ring electrode design. Products inside the chamber can be placed flat on a dedicated platform.
The power is adjustable from 0-200W, with a frequency of 13.56MHz. The vacuum chamber is made of 316 stainless steel, with a volume of 5L. The chamber dimensions are φ140 (W) × 270 (D) mm, and the effective processing range is 130 (W) × 245 (D) mm. The overall dimensions are 550mm (L) × 460mm (W) × 520mm (H). This equipment has both automatic and manual operation modes. The system can automatically track and adjust impedance matching, ensuring stable working conditions.
Working principle: The Pulesi desktop plasma cleaning machine typically operates within a vacuum chamber, where gas is ionized through high-frequency electric fields and other methods to generate plasma. The active particles in the plasma undergo physical and chemical reactions with the surface of the object, thereby achieving cleaning, activation, and other treatments on the material surface.
application field
Scientific research field: It is suitable for university laboratories, research institutions, etc. It can react with various materials through plasma, adjust formulas, and set experimental variables to understand the changes of materials under different conditions.
Industrial production: It can be used for surface treatment of small precision components such as electronic components, connectors, and sensor housings, as well as plastic parts, rubber parts, complex metal parts, and other irregular or curved workpieces. It enhances the surface energy of materials, providing a good foundation for subsequent processes such as spraying, printing, and bonding.
