THE WHY
We build pressure vessels and carbon structures for spaceflight. Every design decision rests on test data — and that data starts with you: from a flawless specimen through a clean test run to a fully traceable dataset. Your work helps decide whether our hardware flies.
THE WHAT
You manufacture test specimens, run test campaigns independently, and document everything without gaps. And you help shape the lab: new test fixtures, better methods, smarter workflows. This is not pure execution — you make the test lab more capable, step by step.
Your tasks in detail:
- Manufacture test specimens: Cutting, milling/grinding, finishing, and conditioning — to standard, within tolerance, documented per specimen. Your specimens are test-ready, no rework needed. → High Performance: Dimensions and geometry are right. Every time.
- Run tests: You operate mechanical test machines (tension, compression, bending), set up clamping fixtures, and run test campaigns independently and properly. → Accountability: Your test run, your responsibility.
- Report anomalies immediately: Geometry deviations, unusual machine behavior, outliers — you flag it right away and note it in the test protocol. No questionable test run continues in silence. → Candor: You say what you see. Immediately.
- Document without gaps: Specimen IDs, test parameters, machine status, raw data — fully recorded and traceable. Calipers, micrometers, and the test protocol are your daily tools. → Accountability: Every specimen is uniquely traceable. No open entries.
- Work closely with test engineers: Requirements from test planning flow into your specimen preparation and test setup — with clear handover and feedback per campaign. → Togetherness: Campaigns succeed as a team.
- Co-develop methods and fixtures: A new clamping setup, a fixture for a new specimen geometry, automating a preparation step — you bring your own ideas and implement them. → Playfulness: Shape the work, don't just execute it.
