Designed for elite vacuum furnace manufacturers, our VIM systems deliver unparalleled metallurgical purity for aerospace, medical, and semiconductor applications.
A specialized metallurgical system using electromagnetic induction to melt metals under high vacuum, eliminating gas impurities and oxide inclusions.
Ideal for Superalloys (Nickel/Cobalt base), Aerospace Engine Components, and High-Purity Magnetic Materials.
Enabling the creation of turbine blades and structural components that withstand extreme thermal stress through rigorous vacuum purification.
Ensuring zero contamination for Cobalt-Chrome and Titanium alloys used in orthopedic implants and cardiovascular devices.
Providing academic institutions and research labs with a controlled environment for discovering the next generation of specialty metals.
| Feature | Standard Rating |
|---|---|
| Heating Method | IGBT Induction / Resistance |
| Cooling System | Closed-loop Water Cooling |
| Vacuum Pump Set | Mechanical + Diffusion/Molecular |
| Control Interface | PLC + HMI Touchscreen System |
"The vacuum stability of this VIM furnace exceeded our aerospace casting requirements. A reliable partner for long-term production."
"As global vacuum furnace manufacturers themselves, their technical support for custom PLC integration was outstanding."
"Excellent ROI on their induction heating system. Energy costs decreased by 15% while improving alloy purity across batches."
We cater to industrial scaling and research needs. Our MOQ starts at 1 unit, with options for modular upgrades as your production grows.
Standard units are typically ready in 8-10 weeks. For complex, custom-engineered aerospace configurations, allow 12-16 weeks for manufacturing and factory acceptance testing (FAT).
Yes. Our manufacturing facility and products are ISO 9001 certified and CE compliant, ensuring safe operation in global industrial environments.
Our engineering focuses on dual-stage viton seals and high-precision welding. We guarantee a cold leak rate of < 1.0 x 10^-3 Pa/hour, critical for preventing nitrogen or oxygen contamination.
Yes. We specialize in alumina, magnesia, and zirconia crucible liners, as well as skull melting (water-cooled copper) configurations for reactive alloys like Titanium.
Our IGBT-based power supplies feature automatic frequency matching, maintaining high electrical efficiency (power factor ≥ 0.95) even as the metal state changes during the melting process.
