3D Printing Technology for Rapid Production
Call Us arrow_forwardHarnessing the power of polymer and metal additive manufacturing for high-quality 3D-printed parts.
Our 3D Printing Technologies
Endeavor 3D is a leading provider of polymer and metal additive manufacturing solutions. We are committed to finding you the right technology for your manufacturing goals.
Not sure which 3D printing technology is the correct one for your project? Contact one of our 3D printing experts for best practices.
MJF 3D Printing
HP Multi Jet Fusion utilizes powdered thermoplastic material to create accurate, complex, and finely detailed parts. Our high-quality thermoplastics deliver optimal mechanical properties and chemical resistance, producing parts with balanced property profiles and strong structures.
When manufactured layer-by-layer in a powder bed, MJF uses a combination of binding agents and energy, allowing for several levels of biocompatibility.
MJF 3D Printing Capabilities
| Build Volume | Build Speed | Layer Thickness | Dimensional Accuracy | Minimum Feature Size |
|---|---|---|---|---|
| 15 x 11.2 x 15 in (380 x 284 x 380 mm) | Up to 5058 cm3/hr (309 in3/hr) | 0.003 in (0.08 mm) | ± 0.3% with lower limit of ± 0.3 mm (± 0.012 in) | 0.020 in (0.5mm) |
MJF 3D Printing Material Properties
| Material | Tensile Strength (MPa) | Elongation at Break (%) | Impact Strength (kJ/m²) |
|---|---|---|---|
| Nylon PA 12 | 48 | 20 (XY), 15 (Y) | 4.8 (XY), 4.1 (Y) |
| Nylon PA 12 S | 45 | 12 (XY), 6 (Y) | 3.2 (XY), 2.5 (Y) |
| Nylon PA 12 White | 49 | 17 (XY), 9 (Y) | 4.8 (XY), 4.1 (Y) |
| Nylon PA 11 | 52 | 50 (XY), 35 (Y) | 5.0 (XY), 4.5 (Y) |
| BASF ULTRASINT TPU01 | 9 | 220 (XY), 120 (Y) | Partial Break (XY), No Break (Y) |
| Nylon PA 12 FR | 46 | 4.7 (XY), 4.0 (Y) | 2.8 (XY), 2.1 (Y) |
Design Guidelines
HP’s MJF 3D printing technology enables revolutionary new part design. Utilize new geometries, simplify complex assemblies, consolidate parts and more!
Need help with designing parts for additive?
Collaborating with Industry Leaders
What is HP Metal Jet?
HP Metal Jet is a 3D printing process that utilizes powdered metal materials to create accurate, complex, and finely detailed parts. They are manufactured in the powder bed, layer-by-layer, and solidified using HP’s unique combination of binding agents and energy.
This revolutionary technology allows us to craft parts with exceptional detail, consistent quality, and unparalleled speed. At Endeavor 3D, we’ll accomplish what you thought was impossible with the help of our metal 3D printing technology and team of experts.
Metal Jet Capabilities
| Build Volume | Build Speed | Layer Thickness | Printing Resolution |
|---|---|---|---|
| 16.9 x 12.2 x 7.9 in | Up to 1990 cc/hr | 35 – 140 µm | 1200 x 1200 dpi |
Metal Jet 3D Printing Materials
| Material | Tensile Strength (MPa) | Elongation at Break (%) | Hardness (HRC) |
|---|---|---|---|
| Stainless Steel 17-4PH | µ=1277 (min=1261) | µ=6 (min=4) | µ=40 (min=33) |
| Stainless Steel 316L | µ=561 (min=557) | µ=61 (min=59) | µ=65 (min=56) |
Streamline your Workflow
Produce high-quality metal parts at scale with automated systems, saving you both time and costs on your next project.
From prototyping to short run production, we're here to help transform your vision into tangible results.
What is FDM 3D Printing?
Fused Deposition Modeling (FDM) is a 3D printing technology that builds parts layer by layer by extruding thermoplastic material through a heated nozzle. FDM 3D printing is ideal for functional prototyping, durable manufacturing tools, and low-volume production parts. Choosing to 3D print with FDM gives you access to the widest range of thermoplastic 3D printing materials including ASA, ABS, ULTEM, and more.
FDM Capabilities
| Build Envelope | Layer Thickness | Support Structures | Achievable Accuracy |
|---|---|---|---|
| 16 x 14 x 16 in (406 x 355 x 406 mm) | 0.005 in–0.013 in (0.127 mm–0.330 mm) | Soluble for most materials. Break-away for PC-ISO and ULTEM. Soluble or break-away for PC | ± .127 mm (± .005 in.) or ± .0015 mm/mm (± .0015 in/in) Z part accuracy includes an additional tolerance of -0.000/+slice height |
FDM 3D Printing Materials
| Material | Tensile Strength (MPa) | Elongation at Break (%) | Heat Deflection Temperature |
|---|---|---|---|
| ULTEM 9085 | XZ (69.2 MPa), ZX (39.4 MPa) | XZ (5.4%), ZX (1.9%) | 343°F (172.9°C) |
| ULTEM 1010 | XZ (79.2 MPa), ZX (28.2 MPa) | XZ (4%), ZX (1.1%) | 414°F (212.2°C) |
| ASA | XZ (32.8 MPa), ZX (28.3 MPa) | XZ (5.9%), ZX (1.8%) | 208°F (97.9°C) |
| ABS-M30 | XZ (30.8 MPa), ZX (27.5 MPa) | XZ (8.1%), ZX (1.8%) | 211.8°F (99.9°C) |
| Nylon 12CF | XZ (83.5 MPa), ZX (32.7 MPa) | XZ (2.4%), ZX (1.2%) | 343°F (308.7°C) |
DyeMansion Post Processing
Elevate the quality and aesthetics of your prints with our state-of-the-art surface finishing solutions, including vibrant coloring, precise smoothing, and durable coating options. This end-to-end post processing solution turns raw 3D printed parts into professional-grade products.
Post Processing Services
An end-to-end solution, turning your raw 3D printed parts into high-quality products.
Have Further Questions?
Talk with a 3D printing engineering expert!