Industrial engineering technologists and technicians support industrial engineers in planning and designing facilities, equipment, and systems that improve operational efficiency. Their job description typically includes: 1. Assisting in the implementation of engineering projects. 2. Conducting time and motion studies to optimize production processes. 3. Developing layouts of machinery and equipment to ensure efficient production flow. 4. Performing quality control tests and inspections on products and processes. 5. Analyzing production costs and recommending improvements. 6. Collaborating with engineers and other professionals to solve production problems. 7. Maintaining and calibrating equipment used in manufacturing processes. 8. Documenting procedures and specifications for production activities. 9. Ensuring compliance with safety regulations and industry standards. 10. Training staff on new processes and technologies.
This income data is sourced from the May 2023 Occupational Employment and Wage Statistics (OEWS) survey. The dataset is updated annually.
Annual Pay Distribution | Salary |
|---|---|
10th percentile | $56,020.00 |
25th percentile | $64,480.00 |
median (50th percentile) | $66,780.00 |
75th percentile | $80,510.00 |
90th percentile | $81,560.00 |
Hourly Pay Distribution | Hourly Rate |
|---|---|
10th percentile | $26.94 |
25th percentile | $31.00 |
median (50th percentile) | $32.11 |
75th percentile | $38.71 |
90th percentile | $39.21 |
Industrial engineering technologists and technicians typically need an associate’s degree in industrial engineering technology or a related field. Some employers may require candidates to have a bachelor’s degree in industrial engineering technology for more advanced positions. High school education is essential to pursue further education in this field, as it provides the foundational knowledge required for entry into post-secondary programs. Training for industrial engineering technologists and technicians often includes coursework in subjects such as manufacturing processes, quality control, industrial materials, production systems, and computer-aided design (CAD). Additionally, hands-on training through internships or cooperative education programs can provide valuable practical experience in applying theoretical knowledge to real-world industrial settings.