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Numerical Modeling and Material Development of a Concrete-Based Acoustic Absorber

 
: Zolanvari, Seyed Mohammad Hassan
: Leistner, Philip; Sedlbauer, Klaus; Maysenhölder, Waldemar

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Fulltext urn:nbn:de:0011-n-5557600 (9.6 MByte PDF)
MD5 Fingerprint: 1cbeb7871085d21475ab1cfca2b7a6cf
Created on: 4.9.2019


Stuttgart: Fraunhofer Verlag, 2019, XVI, 147 pp.
Zugl.: Stuttgart, Univ., Diss., 2019
Forschungsergebnisse aus der Bauphysik, 36
ISBN: 978-3-8396-1487-7
English
Dissertation, Electronic Publication
Fraunhofer IBP ()
optimization; geometrical modelling; material development; inverse parametric identification; acoustic absorber; granular porous material; Berechnungsingenieur; Materialentwickler

Abstract
Acoustic absorbers are implemented in buildings to increase the health and comfort level of the residents. However, popular absorbers have some disadvantages. For instance, some of them have complicated production procedure and are not environment-friendly. Various researches propose that granular materials can overcome these drawbacks.
This thesis aims to improve the performance and workability of a prototype, which is a granular acoustic absorber. Therefore, four main objectives are considered for this research work:
1- Optimizing the material components for the highest acoustic absorption
2- Improving the production procedure from a lab-scale to an industrial-scale
3- Numerically correlating the material geometry with acoustic absorption
4- Computing the model parameters from the measured acoustic absorption
Consequently, the final material is very cost effective, has a proper acoustic absorption and mechanical properties, and a straightforward production procedure. The numerical approach works very efficiently for inverse parametric identification. However, the results of geometrical computations for this material are inaccurate.

: http://publica.fraunhofer.de/documents/N-555760.html