Vacuum Coating Machine (Arc Evaporation)

Vacuum Coating Machine  <small>(Arc Evaporation)</small>
Vacuum Coating Machine  <small>(Arc Evaporation)</small>
Vacuum Coating Machine  <small>(Arc Evaporation)</small>
Vacuum Coating Machine  <small>(Arc Evaporation)</small>
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BITE Vacuum Technology applies metal or metal compound coatings to tools and parts using an arc vaporization process. As the name suggests, arc vaporization creates multiple electric arcs to vaporize the cathode, resulting in a blast of metal ions to bombard the material to be coated. The process takes place in a low pressure plasma environment in the vacuum chamber.

The cathode may be any of metals, including copper, titanium, nickel, and chromium. In some cases, the free metal ions react with the ionized gas (i.e. nitrogen) contained in the plasma environment to form a metal compound for coating, such as titanium nitride, titanium carbide, and zirconium nitride.

Arc vaporization uses a cathode as the source of deposition. Therefore, the process is also known as cathodic arc vaporization, or cathodic arc plasma deposition. Highlighted on this page is the vacuum coating machine that can conduct the arc vaporization process and has found wide use in metatallizing watches, door locks, crockery, kitchenware, eyeglass frames, luminaire, bathroom fixtures and more.

As a specialized vacuum coating machine provider, we can customize your vacuum coater or vacuum metallizer to suit your specific coating requirements.

Features of Vacuum Coating Machine
1. A user-friendly touch-screen, coupled with advanced PLC system, allows vacuum coating machine operator to control the speed of the vacuum pump and monitor the level of vacuum via a vacuometer.
2. Both cathode power supply and bias voltage supply come with a voltage converter. Heating tubes are mounted to the side of the vacuum chamber. PID controller maintains a constant temperature in the chamber.
3.Cathodic arc plasma vaporization offers a high degree of ionization. The resulting metal ions are high energy, enabling metals to be deposited faster than traditional PVD processes.
4. Easy operation, low operating costs, maximum productivity, no health risk, no pollution to the surrounding environment
5. Arc vaporization technology produces fine depositions and enhanced barrier performance.
6. This vacuum coater can complete the entire process in the shortest possible time.

Specifications of Vacuum Coating Machine
Specs LKBT-900 LKBT-1100 LKBT-1250 LKBT-1300
Vacuum chamber size ф900 ×1000 ф1100 ×1200 ф1250 ×1100 ф1300 ×1500
Vacuum pump speed 1×105 Pa~3×10-3 Pa≤20min
Maximum Vacuum ≤1×10-3 Pa
Auxiliary equipment KT-500 /2X-70 /2X-15/ZJP-300
Optional Pumps: F-400/3600 molecular pump (replacement of KT-500)
KT-630 /2X-70/ 2X-15 /ZJP-300
Optional Pumps:
F-400/3600 molecular pump (replacement of KT-630)
KT-630 /2X-70 /2X-15 /ZJP-300
Optional Pumps:
F-400/3600 molecular pump (replacement of KT-630)
KT-630 /2X-70 /2X-15 /ZJP-300
Optional Pumps:
F-400/3600 molecular pump (replacement of KT-630)
Transmission Planetary gear (rotation and revolution), no. of rotary shafts: 8-16, as per customer requirements
Heating method Stainless steel heating tubes along the side of the vacuum chamber
Ion bombardment Pulse voltage: 0-1000V high voltage
Gas supply Gas flow control
No. of cathodes (targets) 6 (electric arcs) 8 (electric arcs) 8-10 (electric arcs) 8-12 (electric arcs)
No. of magnetically controlled targets 1-2 (flat or cylindrical) 1-2 (flat or cylindrical) 1-4 (flat or cylindrical) 1-4 (flat or cylindrical)
Operating mode PLC semi-automatic mode or PC PLC full automatic mode
PLC brands (Siemens and Schneider)
Gas environment Ar , N2, O2, C2H2
Total power 40KW 40-60KW 60-80KW 70-90KW
Compressed air pressure 0.4~0.8MPa
Water cooling system Water pressure/temperature: ≤25 ℃ /≥0.25MPa (Currently out of stock)
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