After successful completion of the course, students are able to perform vibration analysis of real building and bridge structures (railway bridges, wind turbines, pedestrian bridges, foundations of instruments, etc.) and evaluate the results. Students are also able to plan, calculate and optimise a vibration damper for real building and bridge constructions and to evaluate the achieved vibration reduction.
Appointment for the preliminary meeting:
06.10.2022 from 12:00 to 12:30 Uhr at seminar room AE U1 - 4
Further information:
The lecture is held weekly in blocks of 4 hours each (4 x 45 minutes).
At present, the Mondays from 16.10.2023 with the start time from 08:30 are registered and the lecture rooms are reserved.
The exact lecture dates and times can also be agreed with the interested students during the preliminary discussion.
[1] PETERSEN, Ch.; WERKLE, H. (2018) Dynamik der Baukonstruktionen. Springer Vieweg, ISBN 978-3-8348-1459-3.
[2] PETERSEN, C. (2001) Schwingungsdämpfer im Ingenieurbau. Herausgeber: Maurer Söhne GmbH&Co.KG.
[3] ZIEGLER, F. (1998) Technische Mechanik der festen und flüssigen Körper. Dritte, verbesserte Auflage, Springer Verlag Wien New York.
[4] PARKUS, H. (1988) Mechanik der festen Körper. Zweite Auflage, Springer Verlag Wien New York.
[5] MAGNUS, K. (1961). Schwingungen. B. G. Teubner Verlagsgesellschaft mbH, Stuttgart.
[6] REITERER, M. (2004) Schwingungsdämpfung von Baukonstruktionen, insbesondere von Brücken. Dissertation, Institut für Allgemeine Mechanik und Baudynamik, Technische Universität Wien.