SX-HV88 supersonic plasma equipment uses it to melt-spray a carbonized tantalum coating on the graphite plate.
Configuration:
Supersonic plasma spray gun:Flame length: 2 meters
Voltage: Above 120 volts
One set of SX-HV88 supersonic plasma spraying equipment (equipped with professional spray gun SX-100)
(Including:
1. Gas safety control center,
2. Human-machine interface computer touch screen,
3. High-power 100KW inverter main power supply,
4. PLC double-tube powder feeder,
5. Advanced technology SG-100 spray gun dedicated equipment and supersonic plasma spray gun,
6. Water power transfer box,
7. Cooling system: including water-cooled chiller + stainless steel water storage tank + water tower + high-pressure pump)
Main parameters of the SX-HV88 supersonic plasma spraying equipment
Parameter Equipment model: SX-HV88
Plasma temperature, K 3500 - 7000
Electric power, KW/h 40 - 100
Spray material utilization rate 70 - 80%
Technical Specifications of SX-HV88 Supersonic Plasma Spraying Equipment
Parameter Name Equipment Model: SX-HV88
Three-phase 50Hz Frequency Voltage, V 3x380 (-10~+5)
Duty Cycle, % 100
Arc Operating Voltage, V 100 - 150
Arc Operating Current, A 300 - 500
Working Gas Pressure, MPa 0.8 - 1.3 MPa
Air/Electricity Consumption (Air, Hydrogen), m3/h 0.5 - 6
Secondary Gas Consumption (Air, Hydrogen), m3/h 0.5 - 1.2
Cooling Water Pressure, MPa 0.7 - 0.8
Cooling Water Consumption, m3/h 1.2
Single Feeding Powder Device Capacity, L 3L
Equipment Weight, kg (max) 50
Supersonic plasma spray coating equipment working diagram
SX-HV88 supersonic plasma spray coating of tungsten carbide, high-temperature and corrosion-resistant, with a melting point over 3000 degrees Celsius.
Spray coating of tantalum carbide coating, a coating with an extremely high melting point, in the production and processing of semiconductor materials.
The tantalum carbide coating on the spray coating effectively protects the graphite components from decomposition and corrosion in high-temperature and reactive gas processes.
In fields such as semiconductor manufacturing and aviation, graphite materials possess excellent thermal conductivity and high temperature resistance.
Tantalum carbide (TAC) with a particle size of 20-70 mesh, resistant to high temperatures, and providing protection against high temperatures.
This enables it to be used in high-temperature and reactive gas processes without being affected by decomposition and corrosion.
The SX-HV88 supersonic plasma equipment is used to apply a carbon-tantalum coating on the graphite plate.
