Materials Engineering (B.Sc.)
Program structure
Structure of the program
In the Materials Engineering degree program, students deal with the entire chain from the development to the application of the materials, which includes the production, processing, testing, selection, quality assurance as well as the technical sales and service.
Elective modules, interdisciplinary modules, the project week of the faculty as well as a scientific practical project and the Bachelor thesis round out the curriculum.
Modules
- Fundamentals of Applied Mathematics
- Elementary Physics
- Basics of Chemistry
- Statics
- Basics of Materials Technology
- Applied Mathematics
- Material Sciences – Plastics
- Fundamentals of Electrical Engineering and Metrology
- Advanced Physics
- Strength of Materials
- Fundamentals of Production Technology
- Product Design and Computer Aided Design
- Materials Testing: Metals
- Polymer Chemistry
- Machine Elements
- Metallography
- Business Administration
- Mechanical Behavior of Engineering Materials
- Nondestrutive Testing, NDT
- Fracture Mechanics and Damage Analysis
- Finite Element Analysis for Materials (FEA for Materials)
- Microscopy and Analysis
- Fundamentals of Project Management
- Quality Management
- Corrosion and Damage Analysis
- Basics of Joining Techniques
- Structural and Functional Materials
- Elective: Any module of the Bachelor's degree programs of the Faculty Engineering and Computer Science
- Applied Scientific Project
- Bachelor Thesis and Colloquium