We are seeking a Structural Engineer to support the design, analysis, testing, and qualification of structures for our VLEO satellite missions.
Key Responsibilities
* Perform structural analysis of flight hardware including spacecraft structures, propulsion subsystems, and mechanical assemblies. This includes static, modal, random vibration, sine, shock, and quasi‑static load cases.
* Develop and validate finite element models (FEM) for spacecraft and high‑performance aerospace structures.
* Perform hand calculations for preliminary analysis in support of FEA.
* Support structural sizing, stiffness optimisation, and load path analysis for launch and in‑orbit environments.
* Plan and execute vibration, shock, and structural qualification testing test campaigns end‑to‑end: write the test plan, instrument the hardware, interpret the data, correlate the model, and close out the qualification report.
* Instrument hardware using accelerometers and strain gauges, and correlate test results back to analytical models.
* Review engineering drawings and collaborate directly with designers to drive structural design decisions.
* Support qualification activities against relevant aerospace and space standards including GEVS, ECSS, and NASA requirements.
* Contribute to structural verification activities across development, integration, and test phases.
* Confidence reading and reviewing engineering drawings and working directly with design engineers on structural decisions.
Qualifications
* Education: B.S. or M.S. degree in Aerospace Engineering, Mechanical Engineering, Structural Engineering, or a related field.
* 3+ years of structural analysis experience on flight hardware, including spacecraft, launch vehicles, missiles, or high‑performance structures.
* Experience with structural analysis of spacecraft structures and subsystems, including electronic boxes, propulsion systems, hydraulics, or solar panels.
* Experience with design for manufacturing (DFM).
* Hands‑on experience with FEM and ability to justify modelling assumptions and approaches.
* Experience with Altair OptiStruct is a strong plus; proficiency with industry‑standard solvers such as NASTRAN, ANSYS, or Abaqus is required.
* Familiarity with launch environments including random vibration PSDs, SRS shock spectra, and quasi‑static load factors.
* Practical experience supporting environmental testing, including instrumentation with accelerometers and strain gauges and model correlation activities.
Nice‑to‑haves
* Experience with analysis of composite materials.
* Experience with material testing, metallic and composites.
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