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The horizontal design of the Horizontal big PVD Vacuum Coating Machine lays a solid foundation for its large-area coating capability. Compared with other types of coating machines, its vacuum chamber has a larger volume and can easily accommodate and process large-size and large-area workpieces. This design allows the equipment to show unparalleled advantages when dealing with large-scale building decoration materials, automotive parts, home appliance shells and other fields that require large-area coating.
The Horizontal big PVD Vacuum Coating Machine uses advanced PVD coating technology. Through a physical process, the target material is converted into gaseous atoms or molecules in a vacuum environment and uniformly deposited on the surface of the workpiece. This coating method ensures the uniformity and density of the coating layer, and also greatly improves the coating efficiency and quality. For large-area workpieces, this efficient and stable coating technology is particularly important, which can ensure that the entire workpiece surface can obtain a high-quality coating layer.
The Horizontal big PVD Vacuum Coating Machine is also equipped with advanced control systems and monitoring equipment, which can accurately control various parameters in the coating process, such as temperature, pressure, coating time, etc. This precise control ensures that the thickness, color, glossiness and other properties of the coating layer can meet the diverse needs of customers. The equipment also has automatic operation functions, which reduces the difficulty and cost of manual operation and improves production efficiency and product quality.
System Summary
Arc Discharge: An electric arc or arc discharge is an electrical breakdown of a gas that produces an ongoing electrical discharge. The current through a normally nonconductive medium such as air produces a plasma; the plasma may produce visible light. An arc discharge is characterized by a lower voltage than a glow discharge, and it relies on thermionic emission of electrons from the electrodes supporting the arc.
Multi-arc ion coatings can be deposited in a wide range of colors. The rang of colors can be further enhanced by introducing reactive gases into the chamber during the deposition process. The widely used reactive gases for decorative coatings are nitrogen, oxygen, argon or acetylene. The decorative coatings are produced in a certain color range, depending on the metal-to-gas ratio in the coating and the structure of the coating. Both of these factors can be altered by changing the deposition parameters.
Prior to deposition, the parts are cleaned so the surface is free of dust or chemical impurities. Once the coating process has started, all the relevant process parameters are continuously monitored and controlled by an automatic computer control system.
• Substrate Material: Glass, Metal (carbon steel, stainless steel, brass), Ceramics, Plastic.
• Structure Type: Vertical structure/Horizontal structure, #304 Stainless Steel
• Coating Film: Multi-functional metal film, composite film, transparent conductive film, reflectance-increasing film, electromagnetic shielding film, decorative film
• Film Color: multi colors, gun black, titanium golden color, rose golden color, stainless steel color, purple color and other more colors
• Film type: TiN, CrN, ZrN, TiCN, TiCrN, TiNC, TiALN and DLC
Consumables in production: Titanium, Chromium, Zirconium, Iron, alloy target
APPLICATION:
• Large size sheet, plate, pipe, tube and so on.
• Large stainless steel plates and furniture.
Tel: +86-13486478562
FAX: +86-574-62496601
Email: 
Address: No. 79 West Jinniu Road, Yuyao, Ningbo City, Zhejiang Provice, China