Sound absorption advancements: exploring 3D printing in the development of tetrakaidecahedron cell-based acoustic metamaterials
ISSN: 1355-2546
Article publication date: 15 February 2024
Issue publication date: 23 February 2024
Abstract
Purpose
This paper aims to study the design and characterization of a 3D printed tetrakaidecahedron cell-based acoustic metamaterial. At present, the mitigation of low-frequency noise involves the utilization of spatially demanding materials for the absorption of sound. These materials lack the ability for targeted frequency control adjustments. Hence, there is a requirement for an approach that can effectively manage low-frequency noise using lightweight and durable materials.
Design/methodology/approach
The CAD model was created in SolidWorks and was manufactured using the Digital Light Processing (DLP) 3D printing technique. Experimental study and numerical simulations examined the metamaterial’s acoustic absorption. An impedance tube with two microphones was used to determine the absorption coefficient of the metamaterial. The simulations were run in a thermoviscous module.
Findings
The testing of acoustic samples highlighted the effects of geometric parameters on acoustic performance. Increment of the strut length by 0.4 mm led to a shift in response to a lower frequency by 500 Hz. Peak absorption rose from 0.461 to 0.690 as the strut diameter was increased from 0.6 to 1.0 mm. Increasing the number of cells from 8 to 20 increased the absorption coefficient and lowered the response frequency.
Originality/value
DLP 3D printing technique was used to successfully manufacture tetrakaidecahedron-based acoustic metamaterial samples. A novel study on the effects of geometric parameters of tetrakaidecahedron cell-based acoustic metamaterial on the acoustic absorption coefficient was conducted, which seemed to be missing in the literature.
Keywords
Acknowledgements
This work was financially supported (DSF contract ID: 2022-2471) by the Dassault Systèmes Foundation, Pune, Maharashtra (India) and Thapar Institute of Engineering and Technology, Patiala, Punjab (India).
Citation
Shah, S.S., Singh, D., Saini, J.S. and Garg, N. (2024), "Sound absorption advancements: exploring 3D printing in the development of tetrakaidecahedron cell-based acoustic metamaterials", Rapid Prototyping Journal, Vol. 30 No. 3, pp. 609-619. https://doi.org/10.1108/RPJ-08-2023-0304
Publisher
:Emerald Publishing Limited
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