Senior Propulsion Analysis Engineer
| Company | Ursa Major |
|---|---|
| Location | Loveland, CO, USA, Remote in USA |
| Salary | $130000 – $160000 |
| Type | Full-Time |
| Degrees | Bachelor’s, Master’s |
| Experience Level | Senior, Expert or higher |
Requirements
- Thermal-Structural static analysis (particularly dealing with nonlinear materials and large strains). Thermal-Structural Stress analysis experience is required.
- B.S. degree in mechanical, aerospace engineering, or a comparable field.
- 8+ years of experience performing structural analysis.
- Comfortable working in a fast-paced, startup environment.
- Prior experience working on safety-critical systems in production environments.
- Experience performing Finite Element Analysis (FEA / FEM) using commercial codes (e.g., ANSYS, Abaqus, of NASTRAN-based solvers).
- High Cycle Fatigue Analysis (HCF, crack initiation predicted by a stress-life / SN approach).
- Low Cycle Fatigue Analysis (LCF, crack initiation predicted by a strain-life / e-N approach).
Responsibilities
- You will perform coupled thermal-stress analysis to assess material response under extreme conditions.
- You will evaluate our designs through static, dynamic, fatigue, and fracture analyses and provide recommendations when needed to achieve our objectives.
- You will collaborate with other engineering teams to develop our engines while ensuring they meet our system-level requirements and comply with the structural standards we follow.
- You will work closely with our test team to request the instrumentation necessary to anchor our analytical models.
- You will collaborate with our manufacturing team to assess nonconforming hardware for development and flight engines and provide recommended dispositions and repairs.
- You will improve our analytical methods and seek out new approaches and tools.
- You will provide professional development, mentorship, and technical guidance to peers.
Preferred Qualifications
- M.S. degree or higher in Mechanical, Aerospace Engineering, or a comparable field, ideally focusing on solid mechanics, fatigue, fracture, or structural dynamics.
- Dynamic analysis methods (modal, random vibration, shock response).
- Fracture analysis (crack growth / safe-life and assessing for instability via LEFM, ideally with prior experience using NASGRO).
- A strong theoretical background in heat transfer, fluid mechanics, and/or compressible flow.
- Experience with the ANSYS FEA suite.
- Experience with NCode.
- Experience anchoring analytical models to physical testing.
- Knowledge of turbomachinery-related analytical methods (e.g., generating Campbell diagrams to assess margins on rotordynamics or structural modes or rotating hardware).
- Prior professional experience working on either rocketry or turbomachinery.
- Experience supporting failure investigations and root-cause analysis.
- A track record of working efficiently in fast-paced engineering environments.
- A track record of effective oral and written communications to support your recommendations.
- Fluid analysis (e.g. Computational Fluid Dynamics / CFD or 1-D transient analysis using SINDA/FLUINT or ROCETS).
- Knowledge of composite materials, insulation, and ablative thermal protection systems.
- Working experience in loads development.