Manufacturing Engineering, Bachelor of Science with a Concentration in Industrial Health and Safety (B.S.)
MANUFACTURING ENGINEERING
The Bachelor of Science degree in Manufacturing Engineering (MFE) is designed to prepare graduates to become practicing manufacturing engineers with the skills to design, analyze, and modify the processes and systems used to make products in the most time-efficient, cost-effective way possible while maintaining safety and product quality in environmentally friendly ways. Students will gain expertise and practical knowledge in major areas of manufacturing: materials and processes, design for manufacturability, lean manufacturing, quality and process control, safety, automation and robotics. Graduates will be able to employ a strong base of fundamental engineering and management skills to effectively integrate people, technology, machines and capital to positively impact a manufacturing process from design to production to finished product.
Program Requirements
Major
| Code | Title | Hours |
|---|---|---|
| University Graduation Requirements | ||
| General Education | 36 | |
| Foundations of Learning | ||
| GSD 101 | Foundations of Learning | 3 |
| Upper division courses (42 hrs. distributed throughout Major/Supporting/Gen Ed/Free Electives categories) | ||
| Major Requirements | ||
| Core Courses | ||
| AEM 201 | Metallic Material Processes | 3 |
| AEM 301 | Non-Metallic Material Processes | 3 |
| MFE 150 | Introduction to Manufacturing & Engineering Design | 3 |
| MFE 195 | Computer Aided Design | 3 |
| MFE 202 | Introduction to Quality | 3 |
| MFE 330 | Materials Testing and Metrology | 3 |
| MFE 349 | Applied Learning in Manufacturing Engineering | 1 |
| MFE 407 | Fundamentals of Project Management | 3 |
| MFE 498 | Senior Capstone Project I | 3 |
| MFE 499 | Senior Capstone Project II | 3 |
| PHY 221 | Statics | 3 |
| PHY 315 | Electrical Circuits | 4 |
| PHY 360 | Engineering Dynamics | 3 |
| PHY 375 | Engineering Thermodynamics | 3 |
| PHY 380 | Fluid Mechanics | 3 |
| CSC 174 | Introduction to Programming for Science & Engineering | 3 |
| Concentrations | ||
| Students must select one of the following Concentrations: | ||
Quality and Lean Manufacturing | ||
Advanced Manufacturing | ||
| Industrial Health and Safety | 9 | |
| Supporting Course Requirements | 16-19 | |
| General Chemistry ((Element 4)) G | ||
| General Chemistry Lab I ((Element 4)) G | ||
| Fundamentals of Microeconomics ((Element 5B)) G | ||
| Calculus I ((Element 2)) G | ||
| Calculus II | ||
| Differential Equations | ||
| University Physics I ((Element 4)) G | ||
| University Physics II ((Element 4)) G | ||
| Applied Statistics ((Element 2)) G | ||
| Applied Regression Analysis | ||
| The addition of a certificate of minor to this program is highly recommended. | ||
| Free Electives | 4 | |
| Total Hours | 120 | |
- G
Course also satisfies a General Education element. Supporting hours are included within the 36 hr. General Education requirement above.
Concentration
| Code | Title | Hours |
|---|---|---|
| Concentration Courses | ||
| Choose nine hours from the following: | 9 | |
| Legal Aspects of Occupational Safety | ||
| Principles of Occupational Safety and Health | ||
| Hazardous Materials | ||
| Hazard Identification and Control | ||
| Human Factors in Occupational Safety | ||
| Total Hours | 9 | |