3D Printing Additive Manufacturing Printing Substrate Titanium Plate SLM, EBM Titanium Alloy Sheet & Plate
Corresponding Technologies
Heat Treatment, Surface Processing and Coating Post Processing Equipment
Dental technology
Energy, oil and gas
Research and development
Consumer goods, sports and fashion
Aerospace
Mechanical and plant engineering
Medical technology and healthcare
Offshore and marine
Jewellery and watches
Security and defense
1. Material Matching: the composition of the substrate and the printing powder is the same, reducing the stress cracking caused by the difference in thermal expansion.
2. High temperature stability: it can still maintain mechanical strength and dimensional stability under high temperature environment.
3. Surface smoothness: Precision machining to ensure plate surface low roughness (Ra≤1.6μm), and the uniformity of powder.
4. Size customization: according to equipment requirements (common thickness 10-30mm, and 600×600mm width*length).
5. For metal 3D printing processes such as laser selective melting (SLM) and electron beam melting (EBM).
6. Suitable for printing in aerospace, medical implants, high-precision industrial parts and other fields.
7. Easy demoulding and Economy: can be beduty-cycle operation, save costs and easy mass production.
2. High temperature stability: it can still maintain mechanical strength and dimensional stability under high temperature environment.
3. Surface smoothness: Precision machining to ensure plate surface low roughness (Ra≤1.6μm), and the uniformity of powder.
4. Size customization: according to equipment requirements (common thickness 10-30mm, and 600×600mm width*length).
5. For metal 3D printing processes such as laser selective melting (SLM) and electron beam melting (EBM).
6. Suitable for printing in aerospace, medical implants, high-precision industrial parts and other fields.
7. Easy demoulding and Economy: can be beduty-cycle operation, save costs and easy mass production.
