Fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing
Synthetic fiber is still considered the best sound absorptive material. However, due to the health concern of synthetic fiber usage, researchers are trying to find another viable alternative. A microperforated panel (MPP) is a promising alternative that relies on the concept of a Helmholtz resonator...
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my.utm.984992023-01-11T03:48:40Z http://eprints.utm.my/id/eprint/98499/ Fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing Sekar, Vignesh Noum, Se Yong Eh Putra, Azma Sivanesan, Sivakumar Sheng, Desmond Daniel Chin Vui TJ Mechanical engineering and machinery Synthetic fiber is still considered the best sound absorptive material. However, due to the health concern of synthetic fiber usage, researchers are trying to find another viable alternative. A microperforated panel (MPP) is a promising alternative that relies on the concept of a Helmholtz resonator for sound absorption. MPP possessed excellent acoustic resistance and a considerable range of absorption bandwidth. In this paper, MPP made of natural fiber composite was fabricated and its acoustic absorption was measured using a two-microphone impedance tube method as per ISO 10534-2 standard. Later, the tensile strength of the fabricated acoustic absorbers was measured using an Instron Universal Testing Machine as per ASTM D638. The idea of employing additive manufacturing, better known as the 3D printing technique, is proposed to produce lightweight MPP. The 3D printing technique provides design freedom and is less tedious in creating complex and light structures. The 3D printing technique has various important parameters, and infill density is one of the parameters. It was found that the reduction of infill density leads to a decrease of the MPP’s mass and thus, slightly affects the resonance frequency of the MPP, still within the mid-frequency spectrum. It was also noted that the increment of air gap thickness leads to the shifting of MPP’s resonance frequency to a lower frequency range. The tensile strength of the 3D printed samples decreases with a decrease in infill density. A sample with an infill density of 100% has the highest tensile strength of 22 MPa, and a sample with an infill density of 20% has the lowest tensile strength of 12 MPa. Elsevier Ltd. 2022 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/98499/1/SivakumarSivanesan2022_FabricationofLightWeightedAcoustic.pdf Sekar, Vignesh and Noum, Se Yong Eh and Putra, Azma and Sivanesan, Sivakumar and Sheng, Desmond Daniel Chin Vui (2022) Fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing. International Journal of Lightweight Materials and Manufacture, 5 (4). pp. 520-527. ISSN 2588-8404 http://dx.doi.org/10.1016/j.ijlmm.2022.06.007 DOI: 10.1016/j.ijlmm.2022.06.007 |
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TJ Mechanical engineering and machinery Sekar, Vignesh Noum, Se Yong Eh Putra, Azma Sivanesan, Sivakumar Sheng, Desmond Daniel Chin Vui Fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing |
| description |
Synthetic fiber is still considered the best sound absorptive material. However, due to the health concern of synthetic fiber usage, researchers are trying to find another viable alternative. A microperforated panel (MPP) is a promising alternative that relies on the concept of a Helmholtz resonator for sound absorption. MPP possessed excellent acoustic resistance and a considerable range of absorption bandwidth. In this paper, MPP made of natural fiber composite was fabricated and its acoustic absorption was measured using a two-microphone impedance tube method as per ISO 10534-2 standard. Later, the tensile strength of the fabricated acoustic absorbers was measured using an Instron Universal Testing Machine as per ASTM D638. The idea of employing additive manufacturing, better known as the 3D printing technique, is proposed to produce lightweight MPP. The 3D printing technique provides design freedom and is less tedious in creating complex and light structures. The 3D printing technique has various important parameters, and infill density is one of the parameters. It was found that the reduction of infill density leads to a decrease of the MPP’s mass and thus, slightly affects the resonance frequency of the MPP, still within the mid-frequency spectrum. It was also noted that the increment of air gap thickness leads to the shifting of MPP’s resonance frequency to a lower frequency range. The tensile strength of the 3D printed samples decreases with a decrease in infill density. A sample with an infill density of 100% has the highest tensile strength of 22 MPa, and a sample with an infill density of 20% has the lowest tensile strength of 12 MPa. |
| format |
Article |
| author |
Sekar, Vignesh Noum, Se Yong Eh Putra, Azma Sivanesan, Sivakumar Sheng, Desmond Daniel Chin Vui |
| author_facet |
Sekar, Vignesh Noum, Se Yong Eh Putra, Azma Sivanesan, Sivakumar Sheng, Desmond Daniel Chin Vui |
| author_sort |
Sekar, Vignesh |
| title |
Fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing |
| title_short |
Fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing |
| title_full |
Fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing |
| title_fullStr |
Fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing |
| title_full_unstemmed |
Fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing |
| title_sort |
fabrication of light-weighted acoustic absorbers made of natural fiber composites via additive manufacturing |
| publisher |
Elsevier Ltd. |
| publishDate |
2022 |
| url |
http://eprints.utm.my/id/eprint/98499/1/SivakumarSivanesan2022_FabricationofLightWeightedAcoustic.pdf http://eprints.utm.my/id/eprint/98499/ http://dx.doi.org/10.1016/j.ijlmm.2022.06.007 |
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