HP 3D Printing Product
HP Jet Fusion 5200 Series 3D Printing Solution
Manufacturing predictability
- Get quality—from fine detail and sharp edges to textures—and optimal yield at industrial-level OEE.
- Achieve dimensional accuracy and repeatability that rivals industrial tooling—faster—with HP 3D Process Control software.
- Produce functional parts with best-in-class isotropy with a new generation of HP Multi Jet Fusion systems.
- Maximize your equipment uptime, with redundant components, preventive maintenance and support, and HP productivity services.
Breakthrough economics
- Best-in-class economics and productivity (over 160,000 cm?per day) for production environments.
- Uniquely predictable and consistent print time for any type of part thanks to HP Multi Jet Fusion technology —no support structures needed—for optimized production.
- Centralized job tracking and production fleet management from the HP 3D Center software dashboard.
- Streamlined workflow and HP’s most economical continuous 3D printing withautomated materials mixing, enclosed processing station,and natural cooling unit.
- Flexibility and agility—withouttime-and labor-intensive injection molding fine-tuning steps—with HP 3D Process Control software.
Expand into new applications and markets
- Address more final part applications with new levels of repeatable accuracy and best-in-class economics.
- Produce applications with flexible, elastomeric properties with TPU material.
- Deliver a breadth of applications for various markets with HP 3D High Reusability PA 11 and PA 12 materials today, and more in the future.[2]
- Address sustainability, with lower carbon footprint parts[1], and HP 3D materials offering industry-leading reusability.[2]
[1] Low carbon footprint per printed HP Multi Jet Fusion part for runs of 1500 or less when compared to injection molded parts. Data comes from an ISO 14040/44 compliant and peer reviewed LCA study.
[2] Industry-leading surplus powder reusability based on using HP 3D High Reusability PA 11 and PA 12 at recommended packing densities and compared to selective laser sintering (SLS) technology, offers excellent reusability without sacrificing mechanical performance. Tested according to ASTMD638, ASTM D256, ASTM D790, and ASTM D648 and using a 3D scanner. Testing monitored using statistical process controls.