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

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

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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 con-structions 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.

light frame wallstaggered studairborne sound insulationweighted sound insulation index

ZHANG YuCai、YUE Kong、XIE YiFan、CHENG XiangYu、SHI XinLei、WU Peng、ZHAO Hui

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College of Civil Engineering,Nanjing Tech University,Nanjing 211800,China

Key Laboratory of Architectural Acoustic Environment of Anhui Higher Education Institutes,Hefei 230601,China

Nanjing Gongda Construction Technology Co.Ltd.,Nanjing 211800,China

Jiangsu Science and Technology ProjectSpecial Fund for Green Building Development in Jiangsu ProvinceOpen Research Fund of Key Laboratory of Architectural Acoustic Environment of Anhui Higher Education Institutes

BE2022790202162-42AAE2021YB02

2024

10.1007/s11431-023-2662-7

中国科学:技术科学(英文版)
中国科学院

中国科学:技术科学(英文版)

CSTPCDEI
影响因子:1.056
ISSN:1674-7321
年,卷(期):2024.(7)
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