Graphene Oxide‐Based Lamella Network for Enhanced Sound Absorption |
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Authors: | Md Julker Nine Md Ayub Anthony C. Zander Diana N. H. Tran Benjamin S. Cazzolato Dusan Losic |
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Affiliation: | 1. School of Chemical Engineering, The University of Adelaide, Adelaide, SA, Australia;2. ARC Research Hub for Graphene Enabled Industry Transformation, The University of Adelaide, Adelaide, SA, Australia;3. School of Mechanical Engineering, The University of Adelaide, Adelaide, SA, Australia |
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Abstract: | Noise is an environmental pollutant with recognized impacts on the psychological and physiological health of humans. Many porous materials are often limited by low sound absorption over a broad frequency range, delicacy, excessive weight and thickness, poor moisture insulation, high temperature instability, and lack of readiness for high volume commercialization. Herein, an efficient and robust lamella‐structure is reported as an acoustic absorber based on self‐assembled interconnected graphene oxide (GO) sheets supported by a grill‐shaped melamine skeleton. The fabricated lamella structure exhibits ≈60.3% enhancement over a broad absorption band between 128 and 4000 Hz (≈100% at lower frequencies) compared to the melamine foam. The enhanced acoustic absorption is identified to be structure dependent regardless of the density. The sound dissipation in the open‐celled structure is due to the viscous and thermal losses, whereas it is predominantly tortuosity in wave propagation and enhanced surface area for the GO‐based lamella. In addition to the enhanced acoustic absorption and mechanical robustness, the lamella provides superior structural functionality over many conventional sound absorbers including, moisture/mist insulation and fire retardancy. The fabrication of this new sound absorber is inexpensive, scalable and can be adapted for extensive applications in commercial, residential, and industrial building structures. |
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Keywords: | acoustic absorption fire‐retardant graphene oxide lamella moisture insulation |
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