Aerodynamics Engineer
Listed on 2026-07-08
-
Engineering
Mechanical Engineer, Aerospace / Aviation / Avionics
America is critically deficient in production of defensive munitions- we currently produce shipborne interceptors in the few hundreds per year while our adversaries are producing offensive threats in the tens of thousands per year. Furientis was started to help solve this problem- introducing a new class of cost-effective, high production rate, interceptor missiles. We're seeking motivated individuals who internalize this problem and are eager to apply their past experience in similar industries (aerospace, defense, automotive/racing, robotics) and out of the box thinking to solve this problem for the US and its allies.
The GN&C Team writes the laws of motion for our weapon system, and owns the vehicle those laws apply to. We design the airframe, build the plant model the rest of the company tests against, and write the guidance, navigation, and autopilot software that takes a launched interceptor from rail to intercept. The airframe sets the kinematic ceiling, the plant model decides what is real, and the GN&C software lives or dies on the truth of both.
We do not split these concerns across organizations.
The Role
You will own the aerodynamic model and the vehicle outer mold line: body shape, control surfaces, static margin, and the pipeline that turns geometry into the coefficient tables plant and flight software consume. Hands-on, end-to-end: run and extend the empirical pipeline, calibrate against DATCOM and CFD, and plan wind-tunnel campaigns. For someone who has taken an airframe and its plant model from concept through wind tunnel and flight, ideally tactical, airborne, or missile-class.
WhatYou'll Do
- Own the vehicle outer mold line and the design trades on planform, sweep, taper, and area ratios against autopilot authority, static margin, and packaging.
- Own the aero pipeline end-to-end: the geometry-to-coefficient-table workflow that feeds plant and flight software. Decide when to extend empirical methods versus go to CFD or wind tunnel.
- Extend the nonlinear body-lift implementation (Allen-Perkins) and control surface buildups (Barrowman, Polhamus, Pitts-Nielsen carryover, Hemsch-Nielsen). Know which method is honest in which Mach and α regime.
- Stand up the CFD pipeline from zero: tool selection, meshing strategy, turbulence model defaults, transonic and supersonic best practices, and validation discipline.
- Calibrate against DATCOM near-term and wind-tunnel data long-term. Close the gaps the current pipeline shows against external cross-checks.
- Plan and run wind-tunnel campaigns: test matrix, model and sting design, blockage corrections, Reynolds scaling, and data reduction back into runtime tables.
- Own the static-margin envelope across burn and across Mach. Trade CG travel, fin sizing, and body length against intercept performance.
- Work the 6-DOF plant model end-to-end: rigid-body dynamics, atmosphere, wind, aero, propulsion, mass-properties evolution, and sensor and actuator models. Decide where to invest fidelity and where to stub.
- Build and extend the Monte Carlo dispersion harness: coefficient uncertainties, geometry sweeps, noise-source ablations, and the analysis to defend miss-distance claims.
- B.S. in Aerospace Engineering, Mechanical Engineering, Applied Math, Physics, or related. M.S. or Ph.D. preferred.
- 7+ years of missile, munition, or high-speed airframe aerodynamics, with responsibility for one airframe from configuration through wind tunnel and flight.
- Deep fluency with tactical-missile aero methods from first principles: slender-body, Allen-Perkins, Barrowman, Polhamus, Pitts-Nielsen, Hemsch-Nielsen. You can defend each at the whiteboard and know where it breaks.
- Hands‑on CFD across subsonic to supersonic. Meshing and solver fluency in at least one of Star-CCM+, OVERFLOW, Cart3D, SU2, or OpenFOAM.
- Working fluency with Missile DATCOM and at least one engineering‑level tool (Aero Predict, MISL3, RASAero, or equivalent). Reads, writes, and debugs input decks.
- Built or owned a geometry-to-coefficient pipeline that feeds a real 6-DOF simulation, not a one‑off study.
- Wind‑tunnel test experience: campaign planning, model and sting design, blockage corrections,…
(If this job is in fact in your jurisdiction, then you may be using a Proxy or VPN to access this site, and to progress further, you should change your connectivity to another mobile device or PC).