From Hypersonics to AI Workflows: How Ursa Major Is Scaling Rocket Production

Fabian Alefeld welcomes back Thomas Pomorski of Ursa Major to discuss developments over the past year across three focus areas: hypersonics, solid rocket motors, and in-space propulsion. Pomorski reports more than nine hypersonic missions flown with the reusable, ~80% 3D-printed Hadley engine and two successful test flights of the storable Draper engine with AFRL, plus progress on Ursa’s LINX solid rocket motor manufacturing approach using additive for tooling and cases to enable flexible “unit cell” scaling. They cover key hypersonics challenges around affordability and manufacturability and why a storable liquid rocket approach can reduce testing complexity. Much of the conversation focuses on AI’s current value in development: rapidly prototyping slicer features and scan strategies, building data-fusion and monitoring tools via EOS APIs, and enabling small teams to operate with much higher productivity, while noting production validation remains challenging. 00:00 Welcome Back Thomas 01:48 Ursa Major Year Update 02:37 Hypersonic Flight Milestones 04:05 Solid Motors and LINX 05:21 Additive Scale Up Tools 06:39 Hypersonic Cost Challenge 11:58 Solid Motor Unit Cells 15:37 Additive Geometry vs Supply 18:01 AI in Additive Workflows 24:33 AI Productivity Multiplier 29:33 Live Claude Slicer Demo 35:13 Prompting Claude Code 36:35 Sharing Team Workflows 38:40 Production AI Readiness 42:20 Slicer Feature Results 44:49 Closed Loop Optimization 46:46 AI Built Web Monitor 52:59 Automation Roadmap 01:00:12 Verifying Hatch Strategy 01:03:07 Advice For Students 01:08:29 Wrap Up And Thanks ____________________ Subscribe to our YouTube channel: YouTube: https://www.youtube.com/eosgmbh?sub_c... Follow us: LinkedIn:   / eos   Twitter:   / eos3dprinting   Instagram:   / eos3dprinting   ____________________ Imprint: https://www.eos.info/en/footer/imprint Privacy Policy: https://www.eos.info/en/footer/privac... ____________________