HP’s Multi-Jet Fusion technology is set to transform plastics manufacturing and create new opportunities where additive manufacturing has typically not been able to play. This presentation will describe how Multi-Jet Fusion technology works, and go on to explain how future materials sets are being developed with open materials partners to meet the existing demands of traditional manufacturing, while enabling the future of part design and production with voxel-level engineering capabilities.
PRESENTER
Dr. Stephen Rudisill
Stephen Rudisill is an R&D scientist with HP’s 3D Materials & Advanced Applications group, developing materials and supplies for HP’s MJF technology offerings. His work focuses on agent development, fluid/build material interactions, and improving the reliability and performance of current and future MJF technology offerings. He holds a PhD in Materials Chemistry from the University of Minnesota – Twin Cities.
You May Also Like
TDK Makes Sound AI Infrastructure Bet with Fabric8Labs Acquisition Worth Up to $400M
As I described in a recent PRO article, the bulk of global investment is currently premised on a bet that an AI infrastructure buildout can eventually result in a workable...
3D Printing News Briefs, June 10, 2026: Grand Opening, Photoresins, Footwear, & More
We’re starting with some exciting news in today’s 3D Printing News Briefs: Stratasys just celebrated the opening of its new North American headquarters in Minnesota. Moving on, Nanoscribe is scaling...
NX Atomics and Sciaky Collaborating to 3D Print Nuclear Components
For decades, the nuclear industry has quietly experimented with and implemented additive. Bouyed by the likes of ORNL, companies such as Westinghouse have 3D printed components serially. We have an...
Researchers Combine AI and Bioprinting to Create Tiny Blood Vessel Networks
If 2026 has a theme in bioprinting, it may be blood vessels. Researchers can already print incredibly sophisticated tissues. The harder part is keeping those tissues alive. Without a network...
