Will “Vibration Engineer” be Replaced By Robots? 🤔

1.7% Chance of Automation

“Vibration Engineer” will not be replaced by robots.

This job is ranked #79 out of #702. A higher ranking (i.e., a lower number) means the job is less likely to be replaced.

Care to share? Click for Facebook, Twitter, LinkedIn, or XING. 👍

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…

Tasks for “Vibration Engineer”

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

Related Technology & Tools

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

Universal Technical Systems TK Solver
Network Analysis SINDA-G
Hewlett-Packard HP OpenVMS
Tecplot Focus
C
Image processing systems
Thermal Synthesizer System TSS
The MathWorks MATLAB
Cullimore & Ring Technologies Thermal Desktop
MSC Software Fatigue
Alstom ESATAN
IBM Rational ClearCase
Wolfram Research Mathematica
Mathsoft Mathcad
Cullimore & Ring Technologies SINDA/FLUINT
Analytical Graphics STK Expert Edition
National Instruments LabVIEW
Maplesoft Maple
MSC Software Patran
Thermal analysis software
IBM Rational ClearQuest
Thermal Radiation Analysis System TRASYS
Sun Microsystems Java
Finite element method FEM software
PTC Creo Parametric
Harvard Thermal TAS
PTC Pro/INTRALINK
TEAM Engineering FEMAP
Stress analysis software
Computational fluid dynamics CFD software
Python
MSC Software Nastran
Dassault Systemes SolidWorks
Microsoft Access
Autodesk AutoCAD
Microsoft Office
Data acquisition systems
UNIX
Extensible markup language XML
Southwest Research Institute NASGRO
Computer aided manufacturing CAM software
IBM Rational Requisite Pro
Fatigue analysis software
UGS Solid Edge
IBM Rational DOORS
K&K Associates Thermal Analysis Kit TAK
Alstom ESARAD
Microsoft Project
Collier Research HyperSizer
Verilog
Phoenix Integration ModelCenter
Microsoft Visual Basic
The MathWorks Simulink
Altera Quartus II
Grid generation software
Microsoft Excel
Microsoft Visual C++
Dassault Systemes CATIA
Microsoft PowerPoint
ESI Group AutoSEA2
Digital Equipment Corporation DIGITAL Fortran 90
ANSYS
Microsoft Word
Ada
Linux
Practical extraction and reporting language Perl
Thermal design software
Xilinx TMRTool
Flexible dynamics modeling software
Computer-aided engineering CAE software