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327-2103-00L 4 Credits MSC D-MATL

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Advanced Composite and Adaptive Material Systems

Lecturers & Examiners: Dr. Frank Jörg Clemens, Bernhard Weisse

VVZ CR n/a

Last Updated: 2026-02-05 15:47:05

Abstract

Enables materials scientists to work in a wide range of advanced composite and adaptive material systems. Emphasis is placed on developing advanced knowledge and understanding of their design, manufacturing, structure and properties, characterisation and applications.

Objective

Content

The course will comprise a balance of lectures, tutorials, student presentations and laboratory classes. In addition, case study site visits will be made for certain topics to illustrate the industrial application of particular technologies. More and more, the interest in particle and fibre reinforced / structural composite materials is increasing. In beginning, the main focus will be on the production of functional fibres, e.g., for fibre-based sensor and actuator composites with polymers, metals and ceramics. Optical, piezoelectric, shape memory and other fibres for advanced composite applications will be treated in detail. There will be a discussion on fibre classification, fibre production (ceramic and others), adaptive and smart materials, types of sensors and actuators (e.g. made from electro-active polymers), and sensor networks with piezoelectric composites (e.g., Active or Macro Fibre Composites) for adaptive material systems or structural health monitoring (SHM) of advanced composite structures. Furthermore, students will get an overview of biomedical composites and composite application in the field of aerospace, automotive, civil engineering, and energy industry. Emphasis will be put on the underlaying science of a particular process or effect rather than a detailed description of the technique or equipment. Manufacturing of actuators driven by electro-active polymers (EAP) and sensors applications of Active Fibre Composites (AFC) will be studied in laboratory classes. Case studies and examples drawn from structural and functional applications of advanced composite and adaptive material systems will be demonstrated.

Resources

Lecture Notes

will be distributed

Literature

Composite Materials: Engineering and Science by F. L. Matthews, R. D. Rawlings. Publisher: CRC Press, 1999. Adaptronics and smart structures : basics, materials, design, and applications by H. Janocha. Publisher Springer 1999; Berlin, New York. Smart structures : analysis and design by A.V. Srinivasan, D. Michael McFarland. Publisher Cambridge University Press, 2001; Cambridge, New York. Structural health monitoring by D. Balageas, C.-P. Fritzen, A. Güemes. Publisher iSTE, 2006; ISBN: 1-905209-01-0.

General Information

Language: English
Levels: MSC
Frequency: Yearly recurring

Examination

Type: end-of-semester examination
Mode: oral 30 minutes

Semesterendprüfung mündlich 30 Minuten; Sprache wahlweise Englisch oder Deutsch; Gesamtnote = Durchschnitt aus benoteter Semesterendprüfung (2/3) und obligatorischem Leistungselement (1/3)Das obligatorische Leistungselement besteht aus einem 20 min. Vortrag zum Thema "adaptive materials and smart systems".

Course Components

Type	Title	Time & Place	Hours
lecture	Advanced Composite and Adaptive Material Systems	Tue 13:45-15:30 (HCI D 6)	2 h weekly
exercise	Advanced Composite and Adaptive Material Systems	Wed 15:45-17:30 (HCI D 6)	2 h weekly

Offered In

Materials Science Master
- Elective Courses (The students are free to choose individually from the entire course offer of ETH Zürich on the Master level. Please consult the study administration in case of questions.)