PLASMA SURFACE TREATMENT SYSTEMS
Surface Plasma Treatment Products
Atomic Layer Etching (ALE) Surface Plasma Treatment Systems
AP-3 Series
The Anda AP-3 Series are advanced inline selective atmospheric plasma surface treatment machines that can accommodate dual nozzles top and bottom synchronized for simultaneous treatment or operated independently for maximized productivity.
Inline VP-Series
The Anda Inline Vacuum Plasma (VP) Series allows manufactures to insert nanoparticle ultrafine vacuum plasma treatment directly into a process line for improving bonding, printing, painting, coating, or wettability on virtually any material.
Offline VP-Series
The Anda Offline Vacuum Plasma (VP) Series are standalone vacuum chamber plasma treatment machines. During the process, nanoparticles of gases are ionized under pressure in order to ultrafine clean all the exterior surfaces of a substrate simultaneously.
AP-3 Series
The Anda AP-3 Series are advanced inline selective atmospheric plasma treatment machines that can accommodate dual nozzles top and bottom synchronized for simultaneous treatment or operated independently for maximized productivity.
Inline VP-Series
The Anda Inline Vacuum Plasma (VP) Series allows manufactures to insert nanoparticle ultrafine vacuum plasma treatment directly into a process line for improving bonding, printing, painting, coating, or wettability on virtually any material.
Offline VP-Series
The Anda Offline Vacuum Plasma (VP) Series are standalone vacuum chamber plasma treatment machines. During the process, nanoparticles of gases are ionized under pressure in order to ultrafine clean all the exterior surfaces of a substrate simultaneously.
Surface Plasma Treatment FAQ
A surface plasma treatment system is an automated robot that uses a plasma, or ionized gas, to modify the surface properties of a material. The plasma is created by applying high-frequency electrical energy to a gas, creating a cloud of charged particles that can interact with the surface of a material. This interaction can change the chemical composition, surface energy, and/or surface roughness of the material.
A surface plasma treatment system can provide a number of benefits, such as: improving adhesion and bonding between different materials, increasing the surface energy of a material to make it more receptive to coatings or adhesives, and altering the surface roughness of a material to improve its wear resistance or hydrophobic properties.
Surface plasma treatment can be used to treat a wide range of materials, including metals, plastics, ceramics, and composites.
Surface plasma treatment is commonly used in industrial applications such as coating, printing, and adhesive bonding, as well as in the medical, automotive, and electronic industries. Additionally, it is used in research settings to improve the performance of materials or create new material properties.
Other common terms for surface plasma treatment systems include “plasma cleaning,” “plasma activation,” “plasma surface modification,” “plasma etching,” and “plasma treatment” systems.