Job brief
We are seeking a highly skilled Aerospace Engineer to join our flight systems development team and lead the next generation of mission-critical projects. You will be responsible for designing complex structural components, conducting finite element analysis (FEA), and driving innovation across our propulsion and guidance systems. By working closely with manufacturing leads and quality assurance teams, you will ensure our aerospace technology meets extreme environmental performance standards. If you are an analytical professional passionate about aviation, orbital mechanics, and solving complex engineering challenges, we invite you to help us define the future of flight.
Key highlights
- Develop and validate complex aircraft or spacecraft component designs using high-fidelity 3D modeling software like CATIA or NX.
- Perform extensive finite element analysis (FEA) to ensure structural integrity under extreme thermal, pressure, and vibrational loads.
- Execute computational fluid dynamics (CFD) simulations to optimize vehicle aerodynamics and propulsion efficiency during the preliminary design phase.
- Author comprehensive technical specifications and airworthiness documentation to ensure compliance with FAA, NASA, or DOD regulatory requirements.
What is a Aerospace Engineer?
An Aerospace Engineer is a specialized professional responsible for the research, design, and development of aircraft, spacecraft, and high-altitude propulsion systems. By applying principles of aerodynamics, structural mechanics, and thermodynamics, an Aerospace Engineer bridges the gap between theoretical physics and complex mechanical systems. These experts utilize sophisticated software such as ANSYS, MATLAB, and CATIA to ensure that vehicle designs meet rigorous performance requirements while adhering to international safety and airworthiness standards. Their work is essential for pushing the boundaries of flight, propulsion efficiency, and satellite deployment capabilities.
What does a Aerospace Engineer do?
On a daily basis, an Aerospace Engineer performs computational fluid dynamics (CFD) analysis to optimize lift and drag coefficients, ensuring that designs remain aerodynamically efficient. They frequently collaborate with cross-functional teams of mechanical and software engineers to integrate avionics and flight control systems, documenting findings in detailed technical reports that satisfy FAA or EASA regulatory bodies. An Aerospace Engineer also conducts physical stress tests on materials, monitors telemetry data during flight testing, and iterates on component design to mitigate risk and improve fuel efficiency. Their primary output includes validated CAD models, safety compliance documentation, and optimized schematics for aerospace components.
Key responsibilities
- Develop and validate complex aircraft or spacecraft component designs using high-fidelity 3D modeling software like CATIA or NX.
- Perform extensive finite element analysis (FEA) to ensure structural integrity under extreme thermal, pressure, and vibrational loads.
- Execute computational fluid dynamics (CFD) simulations to optimize vehicle aerodynamics and propulsion efficiency during the preliminary design phase.
- Collaborate with electrical and software teams to integrate fly-by-wire and avionics systems into the overall vehicle architecture.
- Author comprehensive technical specifications and airworthiness documentation to ensure compliance with FAA, NASA, or DOD regulatory requirements.
- Lead failure mode and effects analysis (FMEA) to identify potential system vulnerabilities and implement robust risk-mitigation strategies.
- Monitor telemetry and sensor data during ground and flight testing to validate theoretical performance models against real-world metrics.
- Coordinate with procurement and supply chain teams to source aerospace-grade materials that meet stringent MIL-SPEC or industry quality standards.
Requirements and skills
- Bachelor’s degree or higher in Aerospace Engineering, Mechanical Engineering, or a closely related aeronautical discipline.
- Minimum of 3+ years of professional experience in airframe design, propulsion systems, or orbital mechanics analysis.
- Advanced proficiency in CAD/CAE tools including SolidWorks, CATIA, ANSYS, and MATLAB for systems modeling.
- Proven track record of navigating complex FAA, EASA, or military aviation certification processes for flight-critical hardware.
- Deep understanding of aerodynamics, compressible flow, and structural dynamics applied to aerospace vehicle platforms.
- Hands-on experience with prototyping, wind tunnel testing, or flight test instrumentation and data acquisition systems.
- Demonstrated ability to convey complex aerospace engineering concepts to non-technical stakeholders and executive project leads.
- Professional certification such as an EIT or PE (Professional Engineer) license is highly desirable for this senior-level role.
FAQs
What does an Aerospace Engineer do on a daily basis?
An Aerospace Engineer spends their day utilizing CAD software to design components, running simulations to test structural stress, and collaborating with multidisciplinary teams to ensure system integration. They also spend significant time documenting technical requirements and reviewing flight test telemetry to ensure safety and performance criteria are consistently met.
What are the essential skills for an Aerospace Engineer?
Essential skills include mastery of engineering simulation tools like ANSYS or MATLAB, a strong foundation in physics and mathematics, and knowledge of aerospace-specific materials science. Additionally, an Aerospace Engineer must possess the ability to interpret complex technical drawings and understand the regulatory framework governing the aviation and space industries.
Who does an Aerospace Engineer work with?
An Aerospace Engineer works in a highly collaborative environment, interacting daily with mechanical, electrical, and systems engineers to ensure components integrate seamlessly. They also partner with quality assurance inspectors, procurement managers, and external regulatory bodies like the FAA or military oversight agencies to certify that all hardware meets safety mandates.
Why is the role of an Aerospace Engineer important to the industry?
The Aerospace Engineer is critical because they ensure that aircraft and spacecraft are safe, efficient, and technologically advanced. By managing the full lifecycle of vehicle components—from initial CAD modeling to final stress testing—they prevent catastrophic failure and drive the innovation required for modern space exploration and commercial air travel.