Active acoustic absorption device using additive manufacturing technique for normal incident wave

•The acoustic absorption characteristics of printed surfaces are measured.•The anisotropic material properties are important in acoustic absorption.•The roundness of printed structure affects the boundary condition and the resonance frequencies.•The printed structures can be utilized in the acoustic...

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Published in:Applied acoustics 2021-07, Vol.178, p.108006, Article 108006
Main Authors: Kim, Dae Hyuck, Yoon, Gil Ho
Format: Article
Language:English
Subjects:
Acoustic absorber
Additive manufacturing
Anisotropic properties
Interference
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description •The acoustic absorption characteristics of printed surfaces are measured.•The anisotropic material properties are important in acoustic absorption.•The roundness of printed structure affects the boundary condition and the resonance frequencies.•The printed structures can be utilized in the acoustic engineering. This research presents an application of the additive manufacturing (AM) technology for active acoustic absorption device. Fabrication of functional devices in acoustic system is one of the challenging goals of additive manufacturing technology. In order to achieve this objective, an important step is to test the acoustic performance and characteristics of AM device and make it active from an acoustics point of view. Numerous roadblocks that need to be overcome exist and research activities in this field are rare. Thus this research aims to experimentally observe and utilize the anisotropic absorption coefficients of AM device caused by its anisotropic stiffness characteristics. In addition, this research also proposes the concept of an active acoustic device. Some experiments are carried out to show the validity of the active acoustic device using AM technology.
doi_str_mv 10.1016/j.apacoust.2021.108006
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subjects Acoustic absorber
Additive manufacturing
Anisotropic properties
Interference
title Active acoustic absorption device using additive manufacturing technique for normal incident wave
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