Application close date:
Applications will be accepted on an ongoing basis until the requisition is closed.

This role is part of the Blue Origin Engines business unit, where our focus is the design, development, manufacturing, and testing of engines and propulsion systems. Built for multiple uses, our family of engines is powering the next generation of rockets for commercial, civil, national security, and human spaceflight.

As part of our hardworking team of engineers, you will own the thermo-mechanical modeling of our large-scale rotating hardware. You will build and maintain 2D axisymmetric whole-engine models of the rotor and casing, integrate them with secondary-flow networks, and predict the metal temperatures, structural margins, and running clearances that determine whether our turbomachinery performs and survives. This position is integral to the success of our missions and requires strong familiarity with rotating-equipment structural and thermal analysis.

We are looking for someone to apply their technical expertise, leadership skills, and commitment to quality to positively impact safe human spaceflight. Passion for our mission and vision is required!

Special Mentions:

• Relocation provided

• Travel expected up to 20% of the time

Responsibilities include but are not limited to:

• Develop, maintain, and own 2D axisymmetric thermo-mechanical whole-engine / whole-pump models of rotating equipment, predicting metal temperatures, component deflections, and clearances across the full operating envelope.

• Translate 3D component and assembly geometry into efficient 2D axisymmetric representations that capture the governing thermal and structural features.

• Implement transient operating profiles (startup, acceleration, steady-state, throttle transients, shutdown, and cooldown / soak-back) and assess their effect on differential growth and clearances.

• Work closely with secondary-flow analysts to develop conjugate thermal-fluid models, translating internal-flow network outputs (cavity pressures, temperatures, leakage flows, windage) into convective boundary conditions using rotating-disc, gaspath, and cavity heat-transfer correlations; calibrate against rig and engine test data.

• Apply thermal boundary conditions to axisymmetric structural models to predict rotor stack, casing stack separation margin, radial fits, and critical radial / axial clearance closure across transients for critical flow area and rub margin assessment.

• Perform component structural margin, bolted-joint, and interference-fit assessments using 2D and 3D ANSYS, and feed results to life assessment (LCF / HCF / creep).

• Synthesize thermal and structural analysis results into actionable operability guidance, informing and negotiating system-level ConOps trades that balances hardware reliability and life against mission performance objectives.

• Collaborate across disciplines - design, aero / CFD, secondary flow, rotordynamics, materials, and test - to anchor analysis assumptions and resolve complex hardware issues.

• Develop and maintain analysis-driven design requirements and documentation; contribute technical artifacts to subsystem and program gated reviews (SRR, PDR, CDR, MRR, TRR).

Minimum Qualifications:

• Bachelor's degree in Mechanical Engineering, Aerospace Engineering, or a related field.

• Minimum of 8 years of experience in mechanical / structural / thermal analysis of rotating machinery or comparable high-performance hardware (or fewer years with demonstrated ownership of a whole-engine / 2D axisymmetric thermo-mechanical model).

• Hands-on experience with transient thermal and nonlinear structural finite element analysis in ANSYS (contact, plasticity, thermal-structural coupling).

• Demonstrated experience building (not just running) whole-engine / 2D axisymmetric thermo-mechanical models of rotating equipment.

• Ability to independently derive convective heat-transfer boundary conditions from engineering correlations (does not depend on a separate CFD team to populate a thermal model).

• Experience working in cross-disciplinary engineering teams.

• A track record of taking ownership, showing resilience in the face of challenges, and consistently delivering results.

Preferred Qualifications:

• 10+ years of relevant industry experience.

• Experience working in aerospace.

• M.S. or Ph.D. in Mechanical or Aerospace Engineering or a related discipline.

• Experience producing tip-clearance / pinch-point predictions that informed clearance budgets or active clearance control.

• Life assessment experience: thermo-mechanical fatigue (TMF), creep, low-cycle and high-cycle fatigue (LCF / HCF).

• Rotordynamics literacy (Campbell diagrams, critical speeds, bearing support stiffness) sufficient to close the radial clearance budget.

• Experience correlating and calibrating thermo-mechanical models against rig or engine test data.

• Component design experience (bladed rotors / blisks, discs, casings, seals, bolted joints).

• Scripting and automation (Python, MATLAB, ANSYS APDL).

• Working knowledge of ASME Y14.5 GD&T and tolerance / stack-up analysis.

• Experience with 1D fluid-network tools (e.g., Flownex) and proprietary whole-engine-model toolchains.

• Background in gas turbines, steam turbines, APUs, turbochargers, or oil & gas dense-gas compressors / expanders.

• Demonstrated use of - or genuine enthusiasm to adopt - modern AI-assisted engineering tools (e.g., LLM-based coding/analysis assistants integrated into the daily development environment) to accelerate modeling, scripting, and documentation.

• Experience with LabVIEW and MATLAB.

Base Pay Range for:
WA applicants is $145,188.00 - $203,263.20

Other site ranges may differ

Culture Statement

Don't meet all desired requirements? Studies have shown that some people are less likely to apply to jobs unless they meet every single desired qualification. At Blue Origin, we are dedicated to building an authentic workplace, so if you're excited about this role but your past experience doesn't align perfectly with every desired qualification in the job description, we encourage you to apply anyway. You may be just the right candidate for this or other roles.

Benefits

• Benefits include: Medical, dental, vision, basic and supplemental life insurance, paid parental leave, short and long-term disability, 401(k) with a company match of up to 5%, and an Education Support Program.
• Stock Options for all regular employees (working at least 20 hours/week)
• Paid Time Off: Up to four (4) weeks per year based on weekly scheduled hours, and up to 14 company-paid holidays.
• Dependent on role type and job level, employees may be eligible for benefits and bonuses based on the company's intent to reward individual contributions and enable them to share in the company's results, or other factors at the company's sole discretion. Bonus amounts and eligibility are not guaranteed and subject to change and cancellation. Please check with your recruiter for more details.