208.004 Applications of structural dynamics in building and bridge construction
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2022W, VO, 2.0h, 3.0EC

Properties

  • Semester hours: 2.0
  • Credits: 3.0
  • Type: VO Lecture
  • Format: Presence

Learning outcomes

After successful completion of the course, students are able to perform vibration analysis of real elevated and bridge structures (skeletal structures, pedestrian bridges, foundations of instruments, etc.) and evaluate the results.

Subject of course

Diverse applications of structural dynamics in building and bridge construction as well as to vibration damper systems.

Teaching methods

Lectures including many numerical example problems.

Mode of examination

Written and oral

Additional information

Appointment for the preliminary meeting:

07.10.2022 from 12:00 to 12:15 Uhr at seminar room AE U1 - 7

Further information:

The 2 weekly lessons (2 x 45 minutes) are held on a weekly basis.

The exact lecture dates and times will be agreed with the students in the course of the preliminary discussion.


Lecturers

Institute

Course dates

DayTimeDateLocationDescription
Mon08:00 - 12:0017.10.2022Seminarraum AE U1 - 7 Vorlesungszeit: 08:30-11:45
Mon08:00 - 12:0031.10.2022Seminarraum AE U1 - 7 Vorlesungszeit: 08:30-11:45
Mon08:00 - 12:0007.11.2022Seminarraum AE U1 - 7 Vorlesungszeit: 08:30-11:45
Mon08:00 - 12:0021.11.2022Seminarraum AE U1 - 7 Vorlesungszeit: 08:30-11:45
Mon08:00 - 12:0028.11.2022Seminarraum AE U1 - 4 Einzeltermin Vorlesungszeit: 08:30-11:45
Mon08:00 - 12:0005.12.2022Seminarraum AE U1 - 7 Vorlesungszeit: 08:30-11:45
Mon08:00 - 12:0012.12.2022Seminarraum AE U1 - 7 Vorlesungszeit: 08:30-11:45
Tue08:00 - 12:0013.12.2022Seminarraum AE U1 - 2 Vorlesungszeit: 08:30-11:45
Mon08:00 - 12:0019.12.2022Seminarraum AE U1 - 7 Vorlesungszeit: 08:30-11:45

Examination modalities

Written and oral examination OR preparation (including presentation) of a project and oral examination.

Course registration

Not necessary

Curricula

Literature

[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.

Previous knowledge

Mathematics 1 and 2

Mechanics 1 and 2

Language

German