Catalytic Debinding Furnaces
Catalytic Debinding Furnaces are specially designed for efficient and controlled removal of binders from MIM (Metal Injection Molding) components using a catalytic process. By introducing a catalytic agent (such as nitric acid), the binder is decomposed at relatively low temperatures, ensuring minimal distortion and maintaining dimensional accuracy. These furnaces provide uniform debinding, improved productivity, and superior quality results for precision-engineered components.
| Chamber Size (mm) | 300x300x400 | 500x500x600 800x800x1000 (custom sizes available) |
| Temperature (°C) | 100 – 200 |
| Process Type | Catalytic Debinding |
| Catalyst Used | Nitric Acid (HNO₃) |
| Atmosphere | Nitrogen (N₂) with Catalyst Vapors |
| Control System | Fully Automatic PLC Control |
| Safety Features | Gas monitoring, Exhaust system, Emergency shutdown |
| Applications | MIM Components, Precision Parts, Automotive & Medical Components |
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