Sound Absorbing Systems Made of Wood cross Sections Paired with Void Cavities - A First Investigation

IF 0.8 4区 工程技术 Q3 FORESTRY
Franacesco Negro, C. Cremonini, M. Fringuellino, F. Meloni, Stefano Prina, R. Zanuttini
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引用次数: 2

Abstract

This study investigates the possibility of exploiting the porous structure of wood for absorbing sound. With this aim, the following system is proposed: 1 ) the cross section of wood should be exposed to sound waves so that these can activate the vibration of air inside the wood pores; 2)  the cross section should be cut to have small thickness to realize a thorough open cell absorber; 3 ) a void cavity should be left on the back to activate the absorption effect. This setup has been conceived to absorb sound by Helmoltz resonance. To preliminary assess the effectiveness of the system, cross sections of poplar wood were cut 1 mm thick and paired with rear void cavities 15, 30 and 50 mm thick. The normal sound absorption coefficient α was determined through the impedance tube method. Multiple absorption peaks and several α values higher than 0.6-0.7 (α max =0.99) were measured in the medium-low frequency range. Building on these results, further studies are envisaged to model the acoustic behavior of the system and to set the technical aspects relevant to its feasibility in practice.
木质截面与空腔配对的吸声系统——首次研究
本研究探讨了利用木材多孔结构吸声的可能性。为此,提出了以下系统:1)木材的横截面应暴露在声波中,以便声波能够激活木材孔隙内空气的振动;2) 横截面应该被切割成具有小的厚度,以实现彻底的开孔吸收器;3)应在背面留下空腔以激活吸收效果。这种设置被认为是通过赫尔莫茨共振来吸收声音。为了初步评估该系统的有效性,将杨木的横截面切割为1毫米厚,并与15、30和50毫米厚的后部空隙配对。通过阻抗管法测定法向吸声系数α。在中低频范围内测量到多个吸收峰和几个高于0.6-0.7(αmax=0.99)的α值。在这些结果的基础上,预计将进行进一步的研究,以对系统的声学行为进行建模,并设定与其在实践中的可行性相关的技术方面。
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来源期刊
Wood and Fiber Science
Wood and Fiber Science 工程技术-材料科学:纺织
CiteScore
7.50
自引率
0.00%
发文量
23
审稿时长
>12 weeks
期刊介绍: W&FS SCIENTIFIC ARTICLES INCLUDE THESE TOPIC AREAS: -Wood and Lignocellulosic Materials- Biomaterials- Timber Structures and Engineering- Biology- Nano-technology- Natural Fiber Composites- Timber Treatment and Harvesting- Botany- Mycology- Adhesives and Bioresins- Business Management and Marketing- Operations Research. SWST members have access to all full-text electronic versions of current and past Wood and Fiber Science issues.
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