Master of Science in Advanced Manufacturing

Master of Science in Advanced Manufacturing  (Coursework Only Option)

Minimum Credits Required 32
Required Core Course Credit 12
Minimum AM Elective Credit 9
Maximum 400-Level Credit 9
Maximum 700-Level Credit 6
   
Required Courses (12)
MMAE 546Advanced Manufacturing Engineering3
MMAE 557Computer-Integrated Manufacturing Systems3
MMAE 560Statistical Quality and Process Control3
MMAE 588Additive Manufacturing3
Elective AM Courses (9)
Select at least 9 credits hours from the following list:9
Computer-Aided Design and Manufacturing3
Computational Mechanics II3
Manufacturing Processes3
Data Driven Modeling3
Engineering Analysis I3
Advanced Finite Element Methods3
Advanced CAD/CAM3
Computer-Integrated Manufacturing Technologies3
Applications in Reliability Engineering I3
Applications in Reliability Engineering II3
Project for Master of Engineering Students1-6
Special Topics1-6
Advanced Machining for Manufacturing 13
Advanced Machining for Manufacturing 23
Remaining credit hours can be completed by taking additional AM Elective courses or any of the following related courses. (11)
Select at least 11 credit hours from the following list or AM Elective courses:11
Fatigue and Fracture Mechanics3
Advanced Mechanical Metallurgy3
Materials Laboratory3
Computational Methods in Materials Science and Engineering3
Applied Optimization for Engineers3
Introduction to Artificial Intelligence3
Cyber-Physical Systems Security and Design3
Machine Learning3
Smart Factory Automation3
  

Master of Science in Advanced Manufacturing 
(Thesis Option) 

Minimum Credits Required 32
Required Core Course Credit 12
Minimum AM Elective Credit 9
Maximum 400-Level Credit 9
Maximum 700-Level Credit 6
Required Courses (12)
MMAE 546Advanced Manufacturing Engineering3
MMAE 557Computer-Integrated Manufacturing Systems3
MMAE 560Statistical Quality and Process Control3
MMAE 588Additive Manufacturing3
Elective AM Courses (9)
Select at least 9 credit hours from the following list:9
Computer-Aided Design and Manufacturing3
Computational Mechanics II3
Finite Element Methods in Engineering3
Manufacturing Processes3
Data Driven Modeling3
Engineering Analysis I3
Advanced Finite Element Methods3
Advanced CAD/CAM3
Computer-Integrated Manufacturing Technologies3
Applications in Reliability Engineering I3
Applications in Reliability Engineering II3
Advanced Machining for Manufacturing 13
Advanced Machining for Manufacturing 23
Remaining credit hours can be completed by taking additional AM Elective courses or any of the following related courses. (3-6)
Select 3-6 credit hours from the following list or AM Elective courses:3-6
Fatigue and Fracture Mechanics3
Advanced Mechanical Metallurgy3
Materials Laboratory3
Computational Methods in Materials Science and Engineering3
Applied Optimization for Engineers3
Introduction to Artificial Intelligence3
Cyber-Physical Systems Security and Design3
Machine Learning3
Smart Factory Automation3
Thesis Research (6-8)
Select at least 6-8 credit hours of Research and Thesis coursework.6-8
Research and Thesis M.S.6-8