Sound reduction index prediction of double-layer gypsum panels through the transfer matrix method

IF 1.4 Q3 ACOUSTICS

BUILDING ACOUSTICS Pub Date : 2020-05-27 DOI:10.1177/1351010X20921038

N. Granzotto, C. Scrosati, F. Scamoni, E. Piana

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引用次数: 4

Abstract

Gypsum board walls are widely used in today’s buildings. A possible way to considerably increase the sound insulation performances of such lightweight walls is to apply double-layer gypsum panels screwed together. Being the boards separated by a thin air gap, there is no shift of the critical frequency from the single-layer case. Moreover, it is possible to obtain an improvement of the sound insulation performances provided by the additional mass given by the double layer. The thin air layer is, however, responsible for a loss of acoustic performance due to the cavity resonance effect in the frequency range between 800 and 1600 Hz. In this article, the increase in the acoustic insulation achieved through the use of coupled gypsum boards is studied and a modelling technique based on the transfer matrix method is used to simulate the acoustic behaviour of the resulting structure; in particular, the thin air layer between the coupled boards is modelled. The simulations are compared with laboratory measurements carried out according to the international standard series ISO 10140. The transfer matrix approach is found to be suitable to describe the problem, provided that a modified model for the air gap between the boards is applied.

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用传递矩阵法预测双层石膏板的减声指标

石膏板墙在今天的建筑中被广泛使用。显著提高这种轻质墙体隔音性能的一种可能方法是使用双层石膏板拧紧在一起。由于板之间有一个薄的气隙，单层情况下的临界频率没有变化。此外，可以获得由双层提供的附加质量所提供的隔音性能的改善。然而，薄空气层是由于在800和1600之间的频率范围内的空腔谐振效应而导致声学性能损失的原因赫兹。在本文中，研究了通过使用耦合石膏板来提高隔音效果，并使用基于传递矩阵法的建模技术来模拟由此产生的结构的声学行为；特别地，对耦合板之间的薄空气层进行了建模。将模拟与根据国际标准系列ISO 10140进行的实验室测量进行比较。如果应用板之间气隙的修正模型，则发现传递矩阵方法适用于描述该问题。

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

BUILDING ACOUSTICS ACOUSTICS-

CiteScore

4.10

自引率

11.80%

发文量