Product Overview
This series of 3D printing stress relief vacuum furnaces is developed to meet the stringent requirements of aerospace-grade titanium alloys, superalloys, and medical device parts. By strictly controlling vacuum levels and oxygen content, it ensures parts are stress-free post-annealing without surface oxidation or embrittlement. The system complies with high standards of data traceability for medical and aerospace industries.
Key Application Values
- Precision Deformation Control: Provides ultimate temperature uniformity for complex thin-walled structures, ensuring dimensional stability during the annealing process.
- Anti-Embrittlement Technology: Specifically designed for titanium, strict vacuum management prevents O, N, and H penetration, eliminating the risk of material embrittlement.
- Full Data Traceability: Automatically records and exports temperature and vacuum curves. Every batch is traceable, meeting aerospace and medical production standards.
- Medical-Grade Cleanliness: Oil-free and dust-free design ensures implanted parts meet medical cleanliness standards post-treatment.
Technical Specifications
| Item | Specifications |
|---|---|
| Applicable Materials | Titanium, Superalloys, Tool Steel, Al-Mg Alloys |
| Rated Temperature | Up to 950°C (Customizable for higher ranges) |
| Cooling Method | Natural Furnace Cooling or Forced Air Cooling (Optional) |
| Data Logging | Full process recording & export (Aerospace/Medical standard) |
| Cleanliness Standard | Oil-free and dust-free interior design |
| Ultimate Vacuum | 10-3 Pa (or High-purity Inert Gas Protection) |