Leading technology in DED 3D Printing | InssTek
DMT® Technology
The Most Precise DED Technology
DMT® is Direct Metal Tooling,
developed by InssTek and categorized as Direct Energy Disposition(DED) technology according to ASTM standards. Using 2 vision cameras, DMT technology analyzes and controls the height of the meltpool in real-time.
MONITORING SYSTEM
Applicable Material for DMT®
The table shows just the metals already printed with our technology so far.
Almost every week a new metal is added to our experience.
- Fe-based Alloys
- P20, P21, H13, SS304L, SS316L, SS420, 2507
- Ti-based Alloys
- Ti(Grade 2), Ti6-Al-4V(Grade5, Grade23)
- Ni-based Alloys
- Inconel600, 625, 690, 713, 718, Hastelloy22, 276, Nimonic75, Invar36
- Co-based Alloys
- CoCr, Stellite6, Stellite21, Stellite25
- Cu-based Alloys
- Al-Bronze, Cu-Sn
- Microstructure
- Fe-based Alloys SS316L
Mechanical Properties
| Materials - SS316L | Tensile Strength | Yield Strength | Elongation | Hardness |
|---|---|---|---|---|
| InssTek(DMT®) | 575 MPa | 450 MPa | 36% | 182 Hv |
The result is after printing without heat treatment applied.
- Microstructure
- Ni-based Alloys Inconel625
Mechanical Properties
| Materials - Inconel625 | Tensile Strength | Yield Strength | Elongation | Hardness |
|---|---|---|---|---|
| InssTek(DMT®) | 1013 MPa | 670 MPa | 32% | 252 Hv |
The result is after printing without heat treatment applied.
- Microstructure
- Ti-based Alloys Ti-6Al-4V
Mechanical Properties
| Materials - Ti-6Al-4V | Tensile Strength | Yield Strength | Elongation | Hardness |
|---|---|---|---|---|
| InssTek(DMT®) | 1141 MPa | 1036 MPa | 7% | 38.5 HRC |
The result is after printing without heat treatment applied.