Sound absorption characteristics of a high-temperature sintering porous ceramic material

Duan Cuiyun; Cui Guang; Xu Xinbang; Liu Peisheng

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Sound absorption characteristics of a high-temperature sintering porous ceramic material

机译：高温烧结多孔陶瓷材料的吸声特性

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摘要

This article is dedicated to sound absorption properties of porous zeolite with macropores, a ceramic material fabricated by high-temperature sintering. Acoustical properties of this ceramic material are studied by two analytical models, Delany-Bazley model and Johnson-Allard model, where the latter one shows a better fit to the experimental results. Moreover increasing the thickness of samples would improve the sound absorption in the low frequency ranges. Raising the porosity could increase the highest sound absorption coefficient. The resonance frequencies of the materials with 3-5 mm particles are more obvious. Comparing with glass wool, porous zeolite has a better sound absorption.

机译：本文专门介绍具有大孔的多孔沸石的吸声性能，大孔是通过高温烧结制造的陶瓷材料。通过两种分析模型Delany-Bazley模型和Johnson-Allard模型研究了这种陶瓷材料的声学特性，其中后者更适合实验结果。此外，增加样品的厚度将改善低频范围内的声音吸收。提高孔隙率可以增加最高的吸声系数。具有3-5mm颗粒的材料的共振频率更加明显。与玻璃棉相比，多孔沸石具有更好的吸声性能。

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来源
《Applied Acoustics》 |2012年第9期|865-871|共7页
作者
Duan Cuiyun; Cui Guang; Xu Xinbang; Liu Peisheng;
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作者单位

College of Nuclear Science and Technology, Beijing Normal University, Beijing 100875, China Beijing Radiation Center, Beijing 100082, China;

College of Nuclear Science and Technology, Beijing Normal University, Beijing 100875, China Beijing Radiation Center, Beijing 100082, China;

College of Nuclear Science and Technology, Beijing Normal University, Beijing 100875, China Beijing Radiation Center, Beijing 100082, China;

College of Nuclear Science and Technology, Beijing Normal University, Beijing 100875, China Beijing Radiation Center, Beijing 100082, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Porous zeolite; High-temperature sintering; Sound absorption; Delany-Bazley model; Johnson-Allard model;

机译：多孔沸石高温烧结;吸声;Delany-Bazley模型;约翰逊·阿拉德模型;

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3. A Novel Production Method for Porous Sound-Absorbing Ceramic Material for High-Temperature Applications [J] . Frank Giese, Christian Eigenbrod, Dietmar Koch International journal of applied ceramic technology . 2011,第3期

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4. Sound Absorption Coefficient of Porous Ceramic Materials [C] . R.Kusak, L.Lapcik, P.K.Dutta Korean Society of Noise & Vibration Control;Institute of Noise Control Engineering;International congress and exposition on noise control engineering;ASME Noise Control & Acoustics Division . 2015

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5. Enhancement of the low frequency sound absorption of porous materials by addition of a thin high flow-resistivity cover layer. [D] . Lambert, Jeremy A. 2007

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机译：高声压级多孔金属材料吸声特性研究

Sound absorption characteristics of a high-temperature sintering porous ceramic material

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