Sound Absorption Properties of An Open-Cell Ceramic with A High Occupancy Ratio for Recycling of Sediment from Taihu Lake

Advances in Engineering Technology Research Pub Date : 2023-10-20 DOI:10.56028/aetr.8.1.502.2023
Xiaojiang Chen, Ziyang Wang, Ningning Rong, Hequn Min
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Abstract

This paper proposes an open-cell ceramic acoustic material to combat noise pollution, which utilizes sediment from Taihu Lake as its main ingredient. The open-cell ceramic is manufactured using the gel injection molding method to achieve a high occupancy ratio. Simulation and experimental research demonstrate that the open-cell ceramics possess excellent sound absorption properties, particularly in the middle and high frequencies, with high sound absorption characteristics. The unique pore structure of the open-cell ceramics provides multifunctional and excellent mechanical properties, resulting in a lightweight, pore-designable, and broad-frequency sound absorption material that is environmentally friendly, energy-efficient, and renewable.
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用于回收太湖泥沙的高占空比开孔陶瓷的吸音特性
本文提出了一种利用太湖沉积物为主要成分的开孔陶瓷声学材料,用于治理噪声污染。开孔陶瓷采用凝胶注射成型法制造,实现了较高的占有率。模拟和实验研究表明,开孔陶瓷具有优异的吸声性能,尤其是在中高频方面,具有很高的吸声特性。开孔陶瓷独特的孔隙结构具有多功能性和优异的机械性能,因此是一种轻质、孔隙可设计、宽频吸声材料,而且环保、节能、可再生。
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Advances in Engineering Technology Research
Advances in Engineering Technology Research
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