A novel acoustic micro-perforated panel (MPP) based on sugarcane fibers and bagasse

IF 3.4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Mohammad Hosein Beheshti, Ali Khavanin, Mostafa Jafarizaveh, Akram Tabrizi
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引用次数: 0

Abstract

Natural materials are becoming a reliable alternative to traditional artificial materials used in sound absorption insulation. The present study was conducted to investigate the acoustic insulation of micro-perforated panel (MPP) based on sugarcane fibers and bagasse as an available and environmentally friendly material. The absorption properties of single- and double-leaf natural micro-perforated panels (MPP) made of bagasse and also nonnatural MPPs made of Plexiglass were measured using an impedance tube based on ISO 10534–2. Then the effect of bagasse and sugarcane fibers composite on the air gap of MPP was investigated. The results showed the peak sound absorption of the bagasse composite is in the range of 1000 to 2000 Hz, and the sugarcane fiber composite has a higher sound absorption coefficient than the bagasse composite. Also, natural MPPs have a higher absorption coefficient than nonnatural MPPs at all frequencies, and as the panel thickness increases, the peak absorption coefficient shifts to lower frequencies. The peak sound absorption coefficient of double-leaf MPPs made of bagasse is 76%, in the range of 160 to 200 Hz. Using sugarcane fiber composite in the air gap of single- and double-leaf natural MPPs causes the absorption peak to shift to frequencies below 100 Hz. According to the results, natural MPPs have a high sound absorption coefficient at low frequencies. These panels can control sounds with much lower frequencies, especially in a double layer and along with cane fiber composite in their air gap.

基于甘蔗纤维和甘蔗渣的新型声学微穿孔板 (MPP)
天然材料正成为吸音隔热传统人工材料的可靠替代品。本研究以甘蔗纤维和甘蔗渣作为可用的环保材料,对微孔板(MPP)的隔声性能进行了调查。使用基于 ISO 10534-2 的阻抗管测量了甘蔗渣制成的单叶和双叶天然微穿孔板(MPP)以及有机玻璃制成的非天然微穿孔板的吸音特性。然后研究了甘蔗渣和甘蔗纤维复合材料对 MPP 空气间隙的影响。结果表明,甘蔗渣复合材料的吸声峰值在 1000 到 2000 Hz 之间,甘蔗纤维复合材料的吸声系数高于甘蔗渣复合材料。此外,天然 MPP 在所有频率下的吸声系数都高于非天然 MPP,而且随着板材厚度的增加,吸声系数峰值会向低频移动。甘蔗渣制成的双叶 MPP 在 160 至 200 Hz 范围内的吸声系数峰值为 76%。在单叶和双叶天然 MPP 的气隙中使用甘蔗纤维复合材料会使吸声峰值转移到 100 赫兹以下的频率。结果表明,天然 MPP 在低频时具有较高的吸音系数。这些面板可以控制频率更低的声音,特别是在双层面板中,以及在其气隙中加入甘蔗纤维复合材料的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
8.60
自引率
0.00%
发文量
1
审稿时长
13 weeks
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