Enhanced Sound Absorption Properties of Ceramics with Graphene Oxide Composites

Noise pollution is acknowledged as the main environmental problem and is as harmful to human physical and mental health as water and air pollution. However, the acoustic properties of traditional sound absorption materials in low frequency ranges still need to be improved. Herein, the low-frequency sound absorption coefficient of porous ceramics was further improved by coating a graphene oxide (GO) and styrene-butadiene rubber (SBR) composite film inside the porous ceramics. The improved sound absorption coefficient of the porous composite reached 30.4% in the range of 200-800 Hz, which is attributed to the enhancement of the thermal viscous effect and the extension of the dissipation mechanism. Predictably, designing the morphology of three-dimensional interconnected porous structures on the microscale is comparatively useful for developing a porous sound absorbing material effective in middle-and low-frequency noise.

Automated summary

The study improves the low-frequency sound absorption coefficient of porous ceramics by coating a graphene oxide (GO) and styrene-butadiene rubber (SBR) composite film inside, achieving a sound absorption coefficient of 30.4% in the range of 200-800 Hz. Designing three-dimensional interconnected porous structures on the microscale is expected to be useful for developing porous sound absorbing materials effective in middle-and low-frequency noise.