As a program manager, you will be responsible for the key development of mechanical elements of assigned aircraft or aircraft systems. These mechanical and structural elements will play a critical role in the system’s performance and match our company's broader objectives. Customer requirements, business adaptation, technologies, and project planning will be the key responsibilities of this position.
Lead Design and Systems Integration
As a lead design engineer, you will be responsible for designing and upgrading our product lineup. Aircraft structures design and mechanical-systems development will be your primary development areas. Sub-system design and integration will be the indirect focus area of your development process. Advanced system mechanical and complex structural characteristics knowledge and experience will be implemented in this process.
As a structural analysis engineer, you are responsible for performing structural analysis and validating the assigned aircraft system module. You are assigned to test and validate – aircraft structures, ground equipment, and sub-system assemblies. Communication and collaboration with multiple teams for assigned task completion with your main working method.
Hybrid and composite structures
As an engineer, you design, develop and explore an innovative way for hybrid material structures and composite structures of system modules. Computational design to composite fabrication to module treatment will be your responsibility. These solutions will be directly in the current and future product lineups.
Additive mechanical structures
As an additive structural engineer, you will design, optimize and develop additive structures and manufacturing methods. You will communicate with multiple teams to do your parts management process and explore new technical implementation options. Additive manufacturing equipment management and parts post-treatment methods management will be your core responsibility.
As a propulsion systems engineer, you will design, optimize and develop propulsion systems housing, structures, and control systems. You will communicate with multiple teams to do your parts development, testing, and certification process; and explore new technical implementation options.
You are assigned to design, control, and test sub-system for the aircraft system-specific needs and manufacturing needs. Your task will be in direct cooperation with the company's broader business and technical goals. Communication and collaboration with multiple research teams for project-specific goal fulfillment.
System dynamics & Control
As a system dynamics and control engineer, you formulate, develop and implement
advanced control methods. System dynamics management, Multi-body dynamics, and active diagnostics and system integration will be your indirect responsibilities. Testing, integrated evaluation data analysis, and computational response cycle of assigned system development in coordination with other teams will be in your workflow cycles.
As a thermodynamics engineer will be responsible for the design, assistance, coordination, and develop thermal systems. Advanced thermo-mechanical, thermal fluidics, cooling system, and system analysis will be the core area of your workflow. Guidance and communication with multiple teams for broader company project management will be in your task profiles.
Cabin and interior systems
As a cabin and interior design engineer will be responsible for the design, development, testing, and certification of aircraft-specific interior design, cabin design, and support systems. Seating configuration modules, multi-segment cabin design, and cargo bay development and management will be the core area of your workflow. Custom requirement delivery and customer requirement-specific cabin customization will be the responsibilities of the team.