M. Eng. Wood Technology / Holztechnik - Hochschule für Architektur ...
M. Eng. Wood Technology / Holztechnik - Hochschule für Architektur ...
M. Eng. Wood Technology / Holztechnik - Hochschule für Architektur ...
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Master <strong>Wood</strong> <strong>Technology</strong><br />
Module Catalogue / Modulhandbuch<br />
Modul MF 35 – Multi-story Timber Structures and Special Themes<br />
Module coordinator<br />
Modulverantwortlicher<br />
Lecturers/tutors<br />
Referenten<br />
Location / term<br />
Durchführung des Moduls<br />
Credit Points (ECTS) 5<br />
Number of lectures<br />
Anzahl der Vorlesungen<br />
Total workload<br />
Distribution of the hours<br />
Gesamtworkload<br />
Aufteilung der Stunden<br />
Pre-requisites for the module<br />
Modulvoraussetzungen<br />
Learning objectives<br />
Lernziele<br />
Contents<br />
Inhalt<br />
Teaching methods<br />
Lehrmethode<br />
Teaching language<br />
Unterrichtssprache<br />
Examinations<br />
Prüfungsleistung &<br />
Leistungsbewertung<br />
Andreas Müller<br />
Tel.: +41 (0)32 34 40 319<br />
Email: Andreas.Mueller@bfh.ch<br />
Andreas Müller<br />
at the BFH-AHB in Biel/Bienne, Switzerland, summer term<br />
4 contact hours/week for 8 weeks, incl. coaching and presentations<br />
150 hours in total:<br />
� 30 hours direct lectures<br />
� 2 hours presentations<br />
� 15 hours preparation and follow-up<br />
� 105 hours for project work<br />
Admittance to the Master Program in <strong>Wood</strong> <strong>Technology</strong><br />
The students understand and can apply the most important basic construction<br />
rules in multi-storey timber structures.<br />
The students are familiar with the basic structural systems and elements<br />
used in walls, roofs and floors in multi-storey timber structures.<br />
The students understand the most important principles of the bracing of<br />
buildings and building stability.<br />
The students can calculate the distribution of horizontal loads to the bracing<br />
walls by taking their rigidities into account.<br />
The students have learnt to analyze multi-storey timber structures: the loadbearing<br />
behaviour of the main elements, the bracing concept and the material<br />
choice.<br />
� Introduction<br />
� Design of multi-storey timber structures<br />
- Construction guidelines<br />
- Analysis of load-bearing behaviour<br />
- Floors, walls and roofs<br />
- Details<br />
� Bracing and stability issues<br />
- Design, consideration of stiffnesses of wall and floor panels<br />
- Load distribution among bracing walls<br />
� Structural Dynamics<br />
- Fundamentals<br />
- Vibration analysis of floors according to Eurocodes<br />
- Earthquake design (simplified elastic forces in lumped system)<br />
� Lectures, exercises, group work<br />
� Discussion of case studies<br />
� Regular presentation of results of group work<br />
<strong>Eng</strong>lish<br />
50 % written exam<br />
50 % presentations<br />
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