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16.10.2021 | Original

Experimental verification of phononic crystal based on square arrays of cylindrical holes against seismic vibrations in full-scale systems: modeling, sensing and signal processing of seismic vibrations

verfasst von: Selçuk Kaçın, Murat Öztürk, Umur Korkut Sevim, Muharrem Karaaslan, Zafer Özer, Oğuzhan Akgöl, Bayram Ali Mert, Emin Ünal

Erschienen in: Archive of Applied Mechanics | Ausgabe 1/2022

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Abstract

In this study, phononic crystals reducing the earthquake effects will be determined and prototypes will be constructed which can give the opportunity to reduce the effects of seismic waves. Furthermore, test results will be discussed numerically and experimentally. A reasonable structure has been investigated for seismic waves in a low-frequency band by extracting band diagram based on finite element method. The wave propagation is numerically carried out depending on the experimentally obtained mechanical properties of the field. The optimum dimensions and arrangement of the periodic structure have been evaluated by numerical analysis. It is demonstrated that the shielding effect can be realized due to the impedance matching between the ground and seismic metamaterials. Impedance matching is the necessary condition for the maximum interaction of the seismic waves propagating in the field with the structure.

Vorheriger Artikel A novel space–time generalized FDM for dynamic coupled thermoelasticity problems in heterogeneous plates

Nächster Artikel Electromechanical fields in PN junctions with continuously graded doping in piezoelectric semiconductor rods

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Titel: Experimental verification of phononic crystal based on square arrays of cylindrical holes against seismic vibrations in full-scale systems: modeling, sensing and signal processing of seismic vibrations
verfasst von: Selçuk Kaçın
Murat Öztürk
Umur Korkut Sevim
Muharrem Karaaslan
Zafer Özer
Oğuzhan Akgöl
Bayram Ali Mert
Emin Ünal
Publikationsdatum: 16.10.2021
Verlag: Springer Berlin Heidelberg
Erschienen in: Archive of Applied Mechanics / Ausgabe 1/2022
Print ISSN: 0939-1533
Elektronische ISSN: 1432-0681
DOI: https://doi.org/10.1007/s00419-021-02057-2

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