A rocket company at the core, Relativity Space is on a mission to become the next great commercial launch company. Meeting the needs of a growing demand for space infrastructure, our rockets will revolutionize how we connect and communicate on Earth by getting satellites to space. We have developed a vertically integrated technology platform in which we leverage additive manufacturing, artificial intelligence, and autonomous robotics to 3D print rockets. Our unique approach enables rapid product iteration, allowing us to push the boundaries of what's possible today and unlock the full potential of 3D printing for tomorrow. Join us on this extraordinary journey, as we work together to transform our vision into reality.
The Integrated Performance department at Relativity Space is responsible for ensuring that our rockets will achieve our overall objectives and satisfy stringent customer and government requirements. Our department comprises teams responsible for Flight Sciences, including Aerodynamics, Thermal, Loads, and Dynamics; Integrated Structures Analysis; Guidance, Navigation, and Control & Vehicle Performance (GNCP); Systems Engineering; Mission Reliability; and Product Engineering. We architect and execute analysis, simulation, operations, and test projects for all of Relativity’s hardware and software teams in pursuit of mission success. Overall, this team is critical to the launch success of Terran R!
The Aerodynamics team shapes Relativity’s vehicle products by tackling intricate design challenges inherent to reusable launch vehicles. Drawing on a strong foundation in external and compressible flows, the team addresses a wide spectrum of aerodynamic challenges across all flight phases. Leveraging computational fluid dynamics (CFD), wind tunnel testing, reduced order modeling, and flight data, we take a proactive approach to supporting cross-disciplinary design initiatives. Our collaboration with hardware engineers further enables us to overcome design and integration hurdles, ensuring a seamless and efficient development process from concept and through launch.
What you’ll do:
As an Aerodynamics Senior Engineer, you will help drive the technical direction of Relativity’s products across the domains of Aerodynamics and Aerothermodynamics, focusing on external flow analyses using CFD, panel methods, and empirical methods. You will play a key role in shaping Relativity’s vehicle products and advanced technical analyses, including Terran R vehicle entry and reusability, and required simulation tools and methods. In short, you’ll determine how Relativity’s vehicles look and fly, leveraging a high degree of technical authority.
You will collaborate with our design, propulsion, GNC, and dynamics teams to deliver aerodynamics design, test, and analysis projects on time, while meeting our technical requirements. A high degree of autonomy along with an ability to prioritize work in our fast-paced environment is required. Additionally, you will help build an outstanding vehicle engineering organization at the cutting edge of commercial aerospace.
Here are some examples of projects you could be working on:
- Develop and execute CFD analyses to solve novel challenges in vehicle entry stability and control
- Validate CFD approaches and establish CFD best practices for ascent and entry phases of flight
- Scope and develop aerodynamics databases for ascent and entry including uncertainty quantification
- Drive the design of major Terran R system elements – like fins, flaps, and primary structure – to meet criteria for control, stability, heating, and pressure
- Mature Relativity’s tools for developing and communicating aerodynamics data, including custom and commercial code, databases, and data processing tools
- Guide and mentor responsible hardware engineers to ensure hardware meets aerodynamics and system-level requirements
Success in this role requires self-motivation, adaptability, and the ability to contribute significantly to a fast-paced, integrated vehicle program. You should be able to resolve ambiguity, identify what matters, and drive projects to completion. Ideally, you have significant compressible flow, CFD, and High-Performance Computing (HPC) experience as well as a proven track record for completing projects successfully in a highly collaborative environment.
On a weekly basis, you will be performing analysis, developing software tools, and supporting design teams. You will also use your strong organizational skills to properly manage the documentation and communication of your actions, recommendations, and decisions.
What you need to know:
- A graduate degree in engineering or related field and 5+ years relevant experience
- Industry-leading expertise in compressible flow and CFD, preferably on entry vehicles
- Experience architecting and executing CFD workflows for external flow
- Experience solving complex problems on integrated vehicles
- Proficiency in Python and industry-standard CFD tools like FUN3D, Pointwise, and Star-CCM+, including use of HPC clusters
Nice to haves but not required:
- 10+ years relevant experience across 2 or more program lifecycles
- Experience developing simulation toolsets and workflows, e.g., performing CFD validation studies and establishing CFD best practices
This position must meet Export Control compliance requirements, therefore a United States Person as defined by 22 C.F.R. § 120.15 is required.
We are an equal opportunity employer and value diversity at our company. We do not discriminate on the basis of race, religion, color, national origin, gender, sexual orientation, age, marital status, veteran status, or disability status.
Relativity Space offers competitive salary and equity, a generous vacation policy, L&D stipend and more! Learn more here!
Compensation is only one part of our entire total rewards package. To see some of the benefits & perks we offer, please visit here: https://px.sequoia.com/relativityspace