Towards experimental studying the airborne sound insulation of light frame walls with staggered studs

IF 4.4 2区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY Science China Technological Sciences Pub Date : 2024-06-25 DOI:10.1007/s11431-023-2662-7
YuCai Zhang, Kong Yue, YiFan Xie, XiangYu Cheng, XinLei Shi, Peng Wu, Hui Zhao
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Abstract

Light frame walls (LFWs) serve as common partition walls in prefabricated buildings due to their lightweight nature, cost-effectiveness, energy efficiency, and adaptability for rapid on-site assembly. However, their acoustic insulation capability is hindered by issues such as sound bridges, resonance, and coincidence dips, resulting in inadequate sound insulation. This study aims to propose LFW designs with superior acoustic insulation suitable for practical engineering while meeting prevailing national standards. Nine full-scale LFW configurations were subjected to laboratory testing to evaluate the impact of staggered stud arrangements, stud types, and incorporation of compounded materials. The tests were performed between 100 and 5000 Hz, and the sound pressure level and reverberation time at 1/3 octave band were measured and used to calculate the weighted sound insulation index (Rw). Results demonstrated that the outlined design modifications significantly enhanced the sound insulation of the LFW. These modifications effectively mitigate the influence of sound bridges while addressing resonance and coincidence dips inherent in the wall system. Particularly noteworthy was the superior sound insulation achieved by staggered-stud LFWs with compounded materials, surpassing that of autoclaved lightweight concrete walls commonly used in prefabricated constructions despite having lesser thickness and surface density. Rw values increased from 43 to 54 dB compared to conventional LFWs, translating to a notable elevation in airborne sound insulation level from 4 to 7 as an internal separation component, meeting the requisite standards for most applications.

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通过实验研究交错墙骨轻型框架墙的空气隔音性能
轻型框架墙(LFWs)因其轻质、成本效益高、能源效率高以及适应现场快速组装的特点而成为预制建筑中常见的隔墙。然而,声桥、共振和重合骤降等问题阻碍了它们的隔音能力,导致隔音效果不佳。本研究旨在提出既能满足现行国家标准,又能满足实际工程需要的隔音性能优异的低频炉设计方案。我们对九种全尺寸低频炉结构进行了实验室测试,以评估螺柱交错排列、螺柱类型和复合材料的影响。测试在 100 至 5000 Hz 之间进行,测量了声压级和 1/3 倍频程带的混响时间,并用于计算加权隔音指数 (Rw)。结果表明,概述的设计修改大大提高了低频炉的隔音效果。这些修改有效地减轻了声桥的影响,同时解决了墙体系统固有的共振和重合骤降问题。尤其值得注意的是,使用复合材料的交错实心轻质墙体实现了卓越的隔音效果,超过了预制建筑中常用的蒸压轻质混凝土墙体,尽管其厚度和表面密度较小。与传统的轻质墙体相比,Rw 值从 43 分贝提高到 54 分贝,作为内部分隔部件,空气隔音等级从 4 级显著提高到 7 级,符合大多数应用的必要标准。
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来源期刊
Science China Technological Sciences
Science China Technological Sciences ENGINEERING, MULTIDISCIPLINARY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
8.40
自引率
10.90%
发文量
4380
审稿时长
3.3 months
期刊介绍: Science China Technological Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research. Science China Technological Sciences is published in both print and electronic forms. It is indexed by Science Citation Index. Categories of articles: Reviews summarize representative results and achievements in a particular topic or an area, comment on the current state of research, and advise on the research directions. The author’s own opinion and related discussion is requested. Research papers report on important original results in all areas of technological sciences. Brief reports present short reports in a timely manner of the latest important results.
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