Development of Acoustic Absorbent Materials Using Pine Needles
Jaime D. Ruiz-Martinez, Begona Peceño, Carlos J. Carrasco, Daniel Orejón, Yolanda Luna-Galiano, Carlos Leiva

TL;DR
This paper explores using pine needle waste to create sustainable acoustic materials for noise reduction.
Contribution
The study introduces pine needles as a novel, eco-friendly material for acoustic absorption with high noise reduction coefficients.
Findings
Pine needle samples with higher needle/resin ratios showed increased porosity and sound absorption.
Noise reduction coefficients reached 0.67-0.71 for 4 cm thick samples, outperforming typical materials.
Excess resin caused a reflective layer, which could be used to enhance absorption in layered materials.
Abstract
Acoustic absorbing materials made from waste plants or trees represent a sustainable source for noise reduction products and applications such as home acoustic insulation and/or traffic road noise reduction barriers. The primary aim of this work is hence to demonstrate the potential application of pine needle waste as the main constituent in acoustic absorbing materials while resin is used as binder. Once the samples have been manufactured, their different physical (density and porous structure), mechanical (compressive strength), and sound-insulating (sound absorption coefficient) properties are characterized. The influence of the ratio of pine needle/resin, length of the pine needle fragments, and thickness of the samples on the different properties has been explored. As the ratio of pine needles/resin increases so does the porosity, although the compressive strength decreases. To…
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Taxonomy
TopicsAcoustic Wave Phenomena Research · Natural Fiber Reinforced Composites · Cellular and Composite Structures
