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 />
Module MF 13 – Advanced Sound Insulation and Room Acoustics<br />
(Fachliche Vertiefung Schallschutz & Raumakustik)<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 />
Professor Dr. Ulrich Schanda<br />
Tel.: +49 (0) 8031 805 407<br />
Email: ulrich.schanda@fh-rosenheim.de<br />
Professor Dr. Ulrich Schanda<br />
Dr.-Ing. Andreas Rabold<br />
Assistant Lecturer Dipl.-Phys. Elmar Schröder<br />
at the University Rosenheim in the winter term/summer term<br />
2 contact/week hours lecture<br />
3 hours/week self-directed study, preparation and follow-up work<br />
150 hours, of which<br />
� 30 contact hours<br />
� 90 hours self-directed study, seminar paper<br />
� 30 hours preparation and follow-up work at home, exam preparation<br />
Admittance to the Master Programme of <strong>Wood</strong> <strong>Technology</strong><br />
A requirement is the completion of:<br />
� MF 11 - Building Physics for Design<br />
Sound insulation and room acoustics in practice<br />
Students should become familiar with design aspects of room and building<br />
acoustics relevant in practice. They should in particular be able to plan<br />
simple rooms in terms of room acoustics. Furthermore, they will learn how to<br />
assess building components as to their acoustic properties and thus<br />
establish sound insulation documentation for simple buildings.<br />
Sound insulation in timber buildings<br />
Without in-depth knowledge of sound insulation, it is impossible to achieve<br />
structurally flawless solutions in timber construction. Students should<br />
therefore learn the construction parameters in timber construction relative to<br />
sound insulation and how to implement them in planning. They should in<br />
particular be able to recognize, assess and avoid sound insulation problems<br />
of timber buildings relating to sound transfer at low frequencies. New insights<br />
from research in timber construction with respect to improved sound<br />
insulation will be imparted. On the basis of the calculation of typical building<br />
mistakes, the students will be prepared for planning in practice.<br />
Sound protection and room acoustics in practice<br />
� measurement, assessment and planning of room acoustics<br />
� room acoustics of special rooms<br />
� acoustic properties of various construction elements<br />
� sound insulation documentation<br />
Sound insulation in timber buildings<br />
� highly sound-deadening external construction elements, windows &<br />
façades<br />
� partition walls; ceilings, stairs<br />
� sound transmission (roof/wall/ceiling)<br />
� installation noise; construction defects<br />
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