- Uses molybdenum rods as heating elements.
- Double-shell structure with a 30-segment PID temperature control system and phase-shift triggering.
- Controlled by silicon-controlled rectifiers (SCR).
- Furnace chamber uses soft and hard carbon fiber for rapid heating and cooling.
- Fully sealed outer shell; lid and furnace door use high-temperature silicone O-rings.
- Water-cooling system installed at the furnace door.
- Requires vacuum conditions during sintering.
- Equipped with 2X-30 mechanical pumps (with electromagnetic exhaust valves) and K-200 oil diffusion pumps, with cold traps.
- Advantages: compact, uniform temperature field, low surface temperature, fast heating/cooling rate, energy-saving, and cost-effective.
- Suitable for universities, research institutes, and industrial enterprises.
Top 10 Installation Precautions
- Check that all components and accessories in the control cabinet are complete and intact. Ensure the control cabinet is installed on a proper foundation and securely fixed.
- Follow the wiring diagram and refer to the electrical schematic to connect the main and control circuits, ensuring proper grounding and correct wiring.
- Verify that all movable electrical parts operate freely and are not stuck.
- Insulation resistance must be no less than 2 MΩ.
- Ensure all vacuum furnace valves are in the closed position.
- Place the main power switch in the OFF position.
- Turn the manual voltage adjustment knob counterclockwise.
- Set the alarm button to the ON position.
- Complete the connection of the circulating cooling water system according to the layout diagram. It is recommended to connect a backup water source (e.g., tap water) at the main inlet/outlet to prevent damage to sealing rings if the circulating water fails or there is a power outage.