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Automation Risk Analysis

Will “Ceramic Engineer” be Automated?

Historical Context: Oxford Study (2013)

Ranked #88 of 702. Estimated risk: 2.1%

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AI Exposure Risk

58%

“Ceramic Engineer” will maybe be replaced by AI.

Based on the cognitive demands, communication requirements, and logical reasoning intrinsic to this occupation according to O*NET data, we project a 58% probability of disruption by generative AI and Large Language Models.

Automation & Robot Risk

41%

“Ceramic Engineer” will probably not be replaced by robots.

Evaluating the physical dexterity, repetitive motion tasks, and manual labor associated with this role, our analysis indicates a 41% likelihood of substitution by advanced robotics systems.

Personal & Financial Insights

Every occupation has a unique profile. For Materials Engineers, the Bureau of Labor Statistics and O*NET classify the day-to-day work broadly as: Evaluate materials and develop machinery and processes to manufacture materials for use in products that must meet specialized design and performance specifications. Develop new uses for known materials. Includes those engineers working with composite materials or specializing in one type of material, such as graphite, metal and metal alloys, ceramics and glass, plastics and polymers, and naturally occurring materials. Includes metallurgists and metallurgical engineers, ceramic engineers, and welding engineers.

Avg. Annual Salary $116,380
Avg. Hourly Wage $55.95
Available Jobs (US) 22,770
Job Title & Hierarchy Code (SOC) Materials Engineers #17-2131
Wage vs. National Median
ℹ️

Data is based on the reference occupation: “Materials Engineers”

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Related Occupations & Automation Risk

Automotive Engineers

AI Risk 62%
Robot Risk 37%

Aerospace Engineers

AI Risk 62%
Robot Risk 32%

Validation Engineers

AI Risk 61%
Robot Risk 34%

Bioengineers and Biomedical Engineers

AI Risk 61%
Robot Risk 39%

Photonics Engineers

AI Risk 60%
Robot Risk 39%

Petroleum Engineers

AI Risk 60%
Robot Risk 26%

Core Skills & Abilities

  • Determine appropriate methods for fabricating and joining materials.

  • Present technical information at conferences.

  • Write for technical magazines, journals, and trade association publications.

  • Review new product plans, and make recommendations for material selection, based on design objectives such as strength, weight, heat resistance, electrical conductivity, and cost.

  • Supervise the work of technologists, technicians, and other engineers and scientists.

  • Perform managerial functions, such as preparing proposals and budgets, analyzing labor costs, and writing reports.

  • Plan and evaluate new projects, consulting with other engineers and corporate executives, as necessary.

  • Supervise production and testing processes in industrial settings, such as metal refining facilities, smelting or foundry operations, or nonmetallic materials production operations.

  • Design processing plants and equipment.

  • Guide technical staff in developing materials for specific uses in projected products or devices.

  • Modify properties of metal alloys, using thermal and mechanical treatments.

  • Conduct training sessions on new material products, applications, or manufacturing methods for customers and their employees.

  • Replicate the characteristics of materials and their components, using computers.

  • Plan and implement laboratory operations to develop material and fabrication procedures that meet cost, product specification, and performance standards.

  • Analyze product failure data and laboratory test results to determine causes of problems and develop solutions.

  • Conduct or supervise tests on raw materials or finished products to ensure their quality.

  • Design and direct the testing or control of processing procedures.

  • Teach in colleges and universities.

  • Monitor material performance, and evaluate its deterioration.

  • Solve problems in a number of engineering fields, such as mechanical, chemical, electrical, civil, nuclear, and aerospace.

  • Evaluate technical specifications and economic factors relating to process or product design objectives.

Technologies & Software

  • Python
  • Presentation software
  • ANSYS Multiphysics
  • ANSYS AI Simulation
  • Nova (Amazon)
  • Computer aided design CAD software
  • Microsoft PowerPoint
  • IBM Notes
  • Microsoft Visual Basic.NET
  • SAP software
  • National Instruments LabVIEW
  • Microsoft Visio
  • ChatGPT (OpenAI)
  • Fused deposition modeling FDM rapid prototyping systems
  • Image analysis systems
  • QMC CM4D
  • Formula translation/translator FORTRAN
  • PTC Creo Parametric
  • Microsoft SharePoint
  • Grok (xAI)
  • DeepSeek
  • Microsoft Access
  • Web browser software
  • GitHub Copilot
  • Qwen (Alibaba)
  • Finite element analysis software
  • The MathWorks MATLAB
  • Minitab
  • Word processing software
  • Stereolithography SLA rapid prototyping systems
  • Gemini (Google)
  • Microsoft Excel
  • Llama (Meta)
  • Digital image correlation DIC software
  • Claude (Anthropic)
  • Mistral (Mistral AI)
  • Gemini Code Assist
  • Dassault Systemes CATIA
  • Microsoft Outlook
  • Autodesk AI
  • Autodesk AutoCAD
  • Graphics software
  • Microsoft Visual Basic
  • Oracle Database
  • Microsoft Office software
  • MTS Testworks
  • AutoCAD AI
  • Microsoft Word
  • Perplexity AI
  • Enterprise resource planning ERP software
  • Fault detection isolation and recovery FDIR software
  • Kimi (Moonshot AI)
  • Dassault Systemes SolidWorks
  • C++
  • Pycnometers
  • Differential scanning calorimeters
  • Colorimeters
  • Turbidimeters
  • Laboratory vacuum pumps
  • Stereo microscopes
  • Load frames
  • Safety glasses
  • Wind tunnels
  • Masonry cutters
  • Gel permeation chromatographs GPC
  • Sample presses
  • Sanding machines
  • Extensometers
  • Rotating furnaces
  • Laboratory microwave ovens
  • Electrometers
  • Gas detectors
  • Vacuum evaporators
  • Calorimeters
  • Micromanipulators
  • Adiabatic bomb calorimeters
  • Lathes
  • Water burets
  • Tension gauges
  • Scanning electron microscopes SEM
  • Acoustic impediography equipment
  • Strain gauges
  • Roll crushers
  • Steam autoclaves
  • Atomic force microscopes
  • Laboratory glove boxes
  • Digital cameras
  • Current versus voltage IV curve tracers
  • Specific gravity balances
  • Attritors
  • Twin screw extruders
  • Vacuum furnaces
  • Twin-screw extruders
  • Electrostatic separators
  • Adhesion testers
  • Slurry blenders
  • Vacuum coating systems
  • Laboratory blenders
  • Fiberscopes
  • Isodynamic separators
  • Graphite element furnaces
  • Gas chromatographs GC
  • Jar mills
  • Hardness testers
  • Accelerometers
  • Laser Doppler velocimeters LDV
  • Molecular pumps
  • Thermal analysis systems
  • Energy dispersive x-ray spectrometers EDS
  • X ray fluorescence XRF spectrometers
  • Liquid conditioners
  • Jaw crushers
  • Mass spectrometers
  • Magnetic susceptibility balances
  • Ultrasonicators
  • Flame photometers
  • Atomic absorption AA spectrophotometers
  • Tensile testers
  • Plasma-arc furnaces
  • Filter presses
  • Water-cooled saws
  • Heated walk-in environmental chambers
  • High tension separators
  • Ultraviolet UV exposure units
  • Friction and wear testers
  • Muffle furnaces
  • Microscope photo attachments
  • Kneading compactors
  • Infrared monitors
  • Screw-driven test machines
  • Thermogravimetric analyzers
  • Laboratory test sieves
  • Band saws
  • Ultrasonic dismembrators
  • Binocular compound microscopes
  • Impact testers
  • Hot blenders
  • Infrared cameras
  • Ammeters
  • Porosity indicators
  • Inert atmosphere box furnaces
  • Magnetic separators
  • Polishing machines
  • Laboratory pulverizers
  • Computerized numerical control CNC lathes
  • Optical compound microscopes
  • Mechanical sieve shakers
  • Microwave autoclaves
  • Computer numerical controlled CNC milling machines
  • Ball mills
  • Particle size analyzers
  • Gyratory crushers
  • Spectrometers
  • Injection molding machines
  • Ultrasound inspection equipment
  • Concrete test hammers
  • High-vacuum tensile testing chambers
  • Drop weight impact towers
  • Digitizing oscilloscopes
  • Abrasion testers
  • Viscosity meters
  • Laminators
  • Deionizers
  • Melt spinners
  • Cement mixers
  • Personal computers
  • Reflectometers
  • Solvent dryers
  • Film thickness measurement systems
  • Electron microprobe analyzers EMPA
  • Drying ovens
  • Benchtop centrifuges
  • Dataloggers
  • Spectrocolorimeters
  • Solar simulators
  • Temperature regulated shaking water baths
  • X ray fluorescence XRF analyzers
  • Pit depth gauges
  • Electronic toploading balances
  • Accelerated weathering machines
  • Permeability measuring devices
  • Tube furnaces
  • Linear variable differential transformers LVDT
  • Oscillating water tunnels
  • Servohydraulic test machines
  • Stabilometers
  • Vibration analysis equipment
  • High pressure liquid chromatograph HPLC equipment
  • Polarizing microscopes
  • Gauss meters
  • Charpy impact testers
  • Balling drums
  • Diffractometers
  • Optical emission spectrometers
  • Counter-current mixers
  • Hydraulic presses
  • Sonometers
  • Etching equipment
  • Lapping wheels
  • Spectrophotometers
  • pH testers
  • Freeze-thaw test units
  • Coordinate measuring machines CMM
  • Compression testing machines
  • Fume hoods
  • Solid state laser systems
  • Rod mills
  • Flotation columns
  • High temperature material testing systems
  • Holding jigs
  • Laboratory sample splitters
  • Microwave tube furnaces
  • Safety gloves
  • Differential thermal analyzers
  • Fourier transform infrared FTIR spectroscopes
  • Microwave sintering furnaces
  • Durometers
  • Analytical balances
  • Ultrasonic baths

Alternative Job Titles