Will “Aircraft Stress Analyst” be Replaced By Robots? 🤔

Job Description

Perform engineering duties in designing, constructing, and testing aircraft, missiles, and spacecraft. May conduct basic and applied research to evaluate adaptability of materials and equipment to aircraft design and manufacture. May recommend improvements in testing equipment and techniques.

Job Details

• The SOC (Standard Occupational Classification) code is 17-2011.00
• The Mean Annual Wage in the U.S. is $ 112,010.00
• The Mean Hourly Wage is $ 53.00
• Currently, there are 68,510 people on this job

☝️ Information based on the reference occupation “Aerospace Engineers”.

Also Known As…

• Aerospace Engineers
• Test Engineer
• Systems Engineer
• Structural Analysis Engineer
• Flight Test Engineer
• Flight Controls Engineer
• Design Engineer
• Avionics Engineer
• Aerospace Stress Engineer
• Aerospace Engineer
• Aeronautical Engineer
• Wind Tunnel Engineer
• Weight Engineer
• Weight Control Engineer
• Vibration Engineer
• Value Engineer
• Transonic Engineer
• Thermodynamics Engineer
• Thermodynamicist
• Test Facility Engineer
• Test Analyst
• Supplier Quality Engineer (SQE)
• Supersonic Engineer
• Structures Engineer
• Stress Engineer
• Space Engineer
• Service Engineer
• Rocket Scientist
• Propulsion Engineer
• Propeller Engineer
• Pipe Stress Engineer
• Physical Aerodynamicist
• Military Aircraft Designer
• Master Lay Out Specialist
• Helicopter Engineer
• Fuel-Efficient Aircraft Designer
• Flight Engineer
• Flight Dynamicist
• Field Service Engineer
• Dynamicist
• Designer
• Design Analyst
• Aviation Engineer
• Aviation Consultant
• Automation Engineer
• Astronautical Engineer
• Airplane Engineer
• Airplane Designer
• Aircraft Instrument Engineer
• Aircraft Engineer
• Aircraft Designer
• Aeronautical Test Engineer
• Aeronautical Research Engineer
• Aeronautical Project Engineer
• Aeronautical Design Engineer
• Aerodynamicist

Tasks for “Aircraft Stress Analyst”

• Direct or coordinate activities of engineering or technical personnel involved in designing, fabricating, modifying, or testing of aircraft or aerospace products.
• Research new materials to determine quality or conformance to environmental standards.
• Evaluate product data or design from inspections or reports for conformance to engineering principles, customer requirements, environmental regulations, or quality standards.
• Analyze project requests, proposals, or engineering data to determine feasibility, productibility, cost, or production time of aerospace or aeronautical products.
• Formulate conceptual design of aeronautical or aerospace products or systems to meet customer requirements or conform to environmental regulations.
• Diagnose performance problems by reviewing performance reports or documentation from customers or field engineers or inspecting malfunctioning or damaged products.
• Review aerospace engineering designs to determine how to reduce negative environmental impacts.
• Direct aerospace research and development programs.
• Plan or conduct experimental, environmental, operational, or stress tests on models or prototypes of aircraft or aerospace systems or equipment.
• Design or engineer filtration systems that reduce harmful emissions.
• Evaluate biofuel performance specifications to determine feasibility for aerospace applications.
• Design new or modify existing aerospace systems to reduce polluting emissions, such as nitrogen oxide, carbon monoxide, or smoke emissions.
• Maintain records of performance reports for future reference.
• Plan or coordinate activities concerned with investigating and resolving customers' reports of technical problems with aircraft or aerospace vehicles.
• Formulate mathematical models or other methods of computer analysis to develop, evaluate, or modify design, according to customer engineering requirements.
• Write technical reports or other documentation, such as handbooks or bulletins, for use by engineering staff, management, or customers.
• Develop design criteria for aeronautical or aerospace products or systems, including testing methods, production costs, quality standards, environmental standards, or completion dates.
• Evaluate and approve selection of vendors by studying past performance or new advertisements.

Related Technology & Tools

• Fatigue testing machines
• Lasers
• Flight management systems FMS
• Power microwave generators
• Viscometers
• Spectrometers
• Lathes
• Cluster computers
• Electronic pressure scanners
• Welders
• Vibration isolation tables
• Laboratory centrifugal pumps
• Argon-ion lasers
• Personal computers
• Plotters
• Parallel computers
• Signal generators
• Fiber optic interferometers
• Axial flow turbines
• Impinging jet apparatus
• Computer numerical controlled CNC milling machines
• Flow meters
• Axial flow research fans
• Multi-axis mills
• Digital voltmeters DVM
• Laser Doppler velocimeters LDV
• Strain gauge balances
• Vacuum facilities
• Surface grinding machines
• UNIX work stations
• Profilometers
• Force transducers
• Flight simulators
• Atomic force microscopes
• Digital oscilloscopes
• Impact guns
• Push/pull dynamometers
• Laser velocimeters
• Propellant combustion chambers
• Anechoic chambers
• Mainframe computers
• Acoustic emissions systems
• Load frames
• Centerless grinders
• Terminal computers
• Axial flow compressor facilities
• Digital pressure gauges
• Reflection polariscopes
• Wave analyzers
• Electronic flight instrument systems EFIS
• Ultrasonic inspection equipment

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