Themen der Lehrveranstaltung
1. General introduction to composites and their history 2. Materials in composite technology 3. Technical applications going beyond the structural use 4. Production and processing technologies 5. Interfaces and surfaces 6. Behaviour of composites: lab v. operational conditions 7. Design and construction a. Classical toolsets b. Biomimetics and nature-inspired approaches c. Optimization technologies d. Material selection strategies 8. Joining technologies 9. Destructive and non-destructive characterization 10. Failure assessments and their impact on design 11. Recycling and sustainability considerations.

Unterrichtsform
Lecture and exercise.

Bildungsziele
Learning outcomes (ILO): 1. Knowledge and understanding: Students should know the theoretical background of diverse composite materials from materials, processing, calculation, and design perspective 2. Applying Knowledge and understanding: Students should be able to discern the different properties and production methods of the basic material classes from those of composite materials. They should be able to select and use basic calculation methods to determine composite behaviour from data of the constituent materials. 3. Making judgments: Students should be able to critically decide when to employ composite materials in component/product design, how to experimentally assess their properties and how to use failure cases analyses as a means to improve designs. 4. Communication skills: Students should be able to present results of the exercises and contributions to discussions/own talks in appropriate technical/scientific language. 5. Learning skills Students should be able to autonomously search and critically appraise technically relevant data, publications and case studies.

Art der Prüfung
- Formative assessment: In-classe exercises: 9x120 minutes; ILOs assessed: 1, 2, 3, 4, 5. - Summative assessment: 100% written exam: 2 hours; ILOs assessed: 1, 2, 3, 4.

Bewertungskriterien
Performance in written exam.