What Do Industrial Engineering Technology Graduates Do? Would you enjoy learning techniques to apply materials, technology, and industrial equipment to maximize workers’ productivity and make industries as efficient as possible?

Are you looking for a career in design, development, and implementation of technical systems in manufacturing, businesses, or service enterprises?

Do you want to play a central role in increasing productivity, enhancing the quality of products or services, and making workplaces safer for employees?

Industrial Engineering Technology Graduates

  • Study the efficient use of personnel, materials, and machines in factories, stores, repair shops, and offices.
  • Prepare layouts of machinery and equipment, plan the flow of work, make statistical studies, and analyze production costs.
  • Work in teams with others to solve problems dealing with a work location, the layout of a plant, the flow of materials in a facility, production planning and control, the safety of workers, and quality control.
  • Maximize quality of products and services while minimizing cost through industrial engineering technology principles and techniques.
  • Design, improve, and install integrated systems of people, materials, and equipment.
  • Suggest revisions to methods of operation, material handling, or equipment layout.

Famous Industrial Engineers

  • Lillian Gilbreth – distinguished engineer credited with many industrial “firsts,” including kitchen and household appliance designs for maximum efficiency and productivity
  • Henry Ford – founder of the Ford Motor Company and father of modern assembly lines used in mass production
  • Timothy Cook – director of IBM and CEO of Apple, where he was responsible for the company’s worldwide operations and sales
  • Edward Whitacre, Jr. – chairman and CEO of AT&T and General Motors Company

Areas of Employment

  • Manufacturing or production companies
    • Assembly
    • Raw-product processing
    • Administrative practices
  • Consulting firms
  • Government agencies
  • Cost estimating
  • Facilities planning
  • Manufacturing process design
  • Medical care
  • Production control
  • Quality assurance
  • Transportation
  • Software development
  • Project management

Career Guidance Suggestions for Pre-University Students

Coursework to Consider:
  • Pre-algebra
  • Geometry
  • Advanced algebra
  • Engineering fundamentals
  • Chemistry
  • Calculus
  • Statistics
  • Trigonometry
  • Physics
  • Robotics
  • Programming
  • Ergonomics
  • Management science
  • Quality control
  • Circuit analysis
  • Sociology
  • Psychology
  • Organizational behavior
  • Finance
  • Labor relations
Suggested Extracurricular Activities:
  • Competitions
  • Summer programs
  • Afterschool programs
  • Clubs
  • Internships
  • Online puzzles and games
  • Online courses
  • Maker faires
  • Design projects
Local Programs Offered by:
  • Science centers and museums
  • Professional societies like IEEE
  • Universities
Important Skills:
  • Problem-solving skills: understand how to apply basic engineering principles to identify and solve complex technical problems.
  • Interpersonal skills: confer with management or engineering staff to determine quality and reliability standards.
  • Communication skills: be able to understand and follow instructions, as well as communicate problems to supervisors.
  • Design skills: prepare charts, graphs, and diagrams to illustrate workflow, routing, floor layouts, how materials are handled, and how machines are used.
  • Critical thinking skills: consider how workers perform operations such as maintenance, production, and service.
  • Observational skills: observe workers to make sure that equipment is being used and maintained according to quality assurance standards.
  • Analytical skills: evaluate data to recommend or justify changes to production standards for improving quality and efficiency.
  • Math skills: use the principles of mathematics for analysis, design, and troubleshooting.
  • Detail-oriented: gather and record measurements and observations needed by industrial engineers.

Links and Resources

  • Institute of Industrial and Systems Engineers: the world’s largest professional society dedicated to providing leadership in developing industrial engineering; enhancing the capabilities of individuals who are involved in or manage the application, education, training, or research of industrial engineering; and representing the industrial engineering profession.
  • IAENG Society of Industrial Engineering: a professional engineering society that serves as a forum for networking, information sharing, idea exchange, and problem solving for the industrial engineering community.
  • The Association of Technology, Management, and Applied Engineering: a professional association with over 1,000 innovative members who share technology, management, and applied engineering ideas, research, and applications that positively impact the future.
  • American Society of Certified Engineering Technicians: the only national, professional society created especially for, and administered by, engineering technicians and technologists in all engineering disciplines.
  • American Society for Engineering Education: a nonprofit organization of individuals and institutions committed to furthering education in engineering and engineering technology.