Who We Are
Textron Systems is part of Textron, a $14 billion, multi-industry company employing 35,000 talented makers, thinkers, creators and doers worldwide. We make things that fly, hover, zoom and launch. Things that move people. Protect soldiers. Power industries. We serve customers in industries spanning aerospace and defense, specialized vehicles, turf care and fuel systems.
This role is in Textron System’s Weapon Systems business area. Visit TextronSystems.com & Lycoming.com to read more about who we are and the products we make!
About This Role
We believe people should love what they do – in this role, you will be responsible for:
The Aero-Thermal Engineering Analyst will be responsible for generating aerodynamic characteristics, aero-thermal heat transfer environments and thermal responses over a wide range of flight condition, from low speeds up through hypersonic flow fields associated with flight vehicles in the Strategic Missiles Business Line. The position requires some level of expertise in the generation/use of Computer Aided Design (CAD) models, MATLAB and Ansys Fluent Computational Fluids Dynamics (CFD) software tool, as well as an interest in acquiring a working knowledge of Textron Systems legacy aero-thermal computer codes. The analysis techniques used, as well as the compiled results, will be summarized in presentations and detailed design analysis reports.
Responsibilities
· Serve as aerodynamic analyst generating aerodynamic characteristics (pressures, loads and aero coefficients) in the strategic missiles and reentry vehicle area.
· Serve as aerothermal analyst generating aero heating environments to support thermal analyses of flight vehicles in the strategic missiles business line.
· Serve as thermal analyst generating the thermal profiles for exterior/interior structures and payloads, resulting from the environments developed in the flow fields surrounding flight vehicles over a wide range of flight conditions.
· Serve as thermal analyst performing steady-state and/or transient thermal analyses that include various methods of heat transfer, such as conduction, convection, and radiation.
· Utilize a combination of commercial of the shelf (COTS) tools (Siemens NX, Ansys Fluent, MATLAB) and Textron developed software tools to generate the aerodynamic, aerothermal and thermodynamic characteristics described above.
· Define recommended changes to improve the performance/efficiency of aero/thermodynamic design features.
· Summarize results and design application techniques during the above activities via presentations and design analysis reports.
· Up to 5% travel may be required.