ACOUSTIC ABSORBERS MADE OF WOOD FIBER COMPOSITES DEVELOPED BY COMPRESSION MOLDING AND ADDITIVE MANUFACTURING

Vignesh Sekar; Sabarinathan Palaniyappan; Se Yong Eh Noum; Azma Putra; Sivakumar Sivanesan; Desmond Daniel Chin Vui Sheng

doi:10.37763/WR.1336-4561/68.1.6882

ACOUSTIC ABSORBERS MADE OF WOOD FIBER COMPOSITES DEVELOPED BY COMPRESSION MOLDING AND ADDITIVE MANUFACTURING

Vignesh Sekar^*
, Sabarinathan Palaniyappan
, Se Yong Eh Noum
, Azma Putra
, Sivakumar Sivanesan
, Desmond Daniel Chin Vui Sheng

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

97 Scopus citations

Abstract

This research aims to address the noise pollution by developing an acoustic absorber made of polylactic acid (PLA)/polyhydroxyalkanoates (PHA)-wood fibers (PLA/PHA-WF) by compression molding (CM) and additive manufacturing (AM). Physical, mechanical, thermal, water absorption, and biodegradation properties of the developed acoustic absorbers by CM and AM were characterized and compared. Upon providing an air gap, thin absorbers developed by AM exhibit an increased and narrow acoustic peak than the CM absorbers because of the Helmholtz resonance effect due to the decreased density and increased porosity in the AM absorber. The results also show that the mechanical and thermal properties of the absorbers developed by CM and AM were almost similar and absorber developed by AM shows an increased rate of water absorption and biodegradation compared to absorber developed by CM due to the presence of porosity in the AM structure.

Original language	English
Pages (from-to)	68-82
Number of pages	15
Journal	Wood Research
Volume	68
Issue number	1
DOIs	https://doi.org/10.37763/WR.1336-4561/68.1.6882
State	Published - 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023 Statny Drevarsky Vyskumny Ustav. All rights reserved.

Keywords

Additive manufacturing
acoustic absorbers
acoustics
compression molding
wood fiber composites

ASJC Scopus subject areas

Forestry
General Materials Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.37763/WR.1336-4561/68.1.6882

Cite this

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title = "ACOUSTIC ABSORBERS MADE OF WOOD FIBER COMPOSITES DEVELOPED BY COMPRESSION MOLDING AND ADDITIVE MANUFACTURING",

abstract = "This research aims to address the noise pollution by developing an acoustic absorber made of polylactic acid (PLA)/polyhydroxyalkanoates (PHA)-wood fibers (PLA/PHA-WF) by compression molding (CM) and additive manufacturing (AM). Physical, mechanical, thermal, water absorption, and biodegradation properties of the developed acoustic absorbers by CM and AM were characterized and compared. Upon providing an air gap, thin absorbers developed by AM exhibit an increased and narrow acoustic peak than the CM absorbers because of the Helmholtz resonance effect due to the decreased density and increased porosity in the AM absorber. The results also show that the mechanical and thermal properties of the absorbers developed by CM and AM were almost similar and absorber developed by AM shows an increased rate of water absorption and biodegradation compared to absorber developed by CM due to the presence of porosity in the AM structure.",

keywords = "Additive manufacturing, acoustic absorbers, acoustics, compression molding, wood fiber composites",

author = "Vignesh Sekar and Sabarinathan Palaniyappan and Noum, \{Se Yong Eh\} and Azma Putra and Sivakumar Sivanesan and Sheng, \{Desmond Daniel Chin Vui\}",

year = "2023",

doi = "10.37763/WR.1336-4561/68.1.6882",

language = "English",

volume = "68",

pages = "68--82",

journal = "Wood Research",

issn = "1336-4561",

publisher = "Pulp and Paper Research Institute",

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T1 - ACOUSTIC ABSORBERS MADE OF WOOD FIBER COMPOSITES DEVELOPED BY COMPRESSION MOLDING AND ADDITIVE MANUFACTURING

AU - Sekar, Vignesh

AU - Palaniyappan, Sabarinathan

AU - Noum, Se Yong Eh

AU - Putra, Azma

AU - Sivanesan, Sivakumar

AU - Sheng, Desmond Daniel Chin Vui

PY - 2023

Y1 - 2023

N2 - This research aims to address the noise pollution by developing an acoustic absorber made of polylactic acid (PLA)/polyhydroxyalkanoates (PHA)-wood fibers (PLA/PHA-WF) by compression molding (CM) and additive manufacturing (AM). Physical, mechanical, thermal, water absorption, and biodegradation properties of the developed acoustic absorbers by CM and AM were characterized and compared. Upon providing an air gap, thin absorbers developed by AM exhibit an increased and narrow acoustic peak than the CM absorbers because of the Helmholtz resonance effect due to the decreased density and increased porosity in the AM absorber. The results also show that the mechanical and thermal properties of the absorbers developed by CM and AM were almost similar and absorber developed by AM shows an increased rate of water absorption and biodegradation compared to absorber developed by CM due to the presence of porosity in the AM structure.

AB - This research aims to address the noise pollution by developing an acoustic absorber made of polylactic acid (PLA)/polyhydroxyalkanoates (PHA)-wood fibers (PLA/PHA-WF) by compression molding (CM) and additive manufacturing (AM). Physical, mechanical, thermal, water absorption, and biodegradation properties of the developed acoustic absorbers by CM and AM were characterized and compared. Upon providing an air gap, thin absorbers developed by AM exhibit an increased and narrow acoustic peak than the CM absorbers because of the Helmholtz resonance effect due to the decreased density and increased porosity in the AM absorber. The results also show that the mechanical and thermal properties of the absorbers developed by CM and AM were almost similar and absorber developed by AM shows an increased rate of water absorption and biodegradation compared to absorber developed by CM due to the presence of porosity in the AM structure.

KW - Additive manufacturing

KW - acoustic absorbers

KW - acoustics

KW - compression molding

KW - wood fiber composites

UR - https://www.scopus.com/pages/publications/85154530719

U2 - 10.37763/WR.1336-4561/68.1.6882

DO - 10.37763/WR.1336-4561/68.1.6882

M3 - Article

AN - SCOPUS:85154530719

SN - 1336-4561

VL - 68

SP - 68

EP - 82

JO - Wood Research

JF - Wood Research

IS - 1

ER -

ACOUSTIC ABSORBERS MADE OF WOOD FIBER COMPOSITES DEVELOPED BY COMPRESSION MOLDING AND ADDITIVE MANUFACTURING

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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Cite this