Restoring Riparian Ecosystems: The Challenge of Accommodating Variability and Designing Restoration Trajectories

Acoustic structures are currently classified mainly in terms of their acoustic absorption and insulation properties. Knowing the sound scattering parameter can significantly improve the useful value of materials and identify their best applications. Currently no studies are performed in Poland on the sound scattering coefficients of materials. This is due to a complex measurement procedure and a lack of legal requirements. The authors have attempted to make such measurements on the basis of the standard ISO 17497-1:2004: AcousticsSound-scattering properties of surfaces -Part 1: Measurement of the random-incidence scattering coefficient in a reverberation room. Measurement and calculation methods are presented, and problems encountered during this study have been described. This issue is of particular importance, especially in the acoustic design of interiors.

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Sound Diffusers with Fabric Covering

Kamisiński¹,

Brawata²,

Pilch³

et al. 2012

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Fabric covering is often used by designers, as it can easily mask acoustic structures that do not match an interior. However, in the case of sound diffusers based on change in the phase of the reflected wave, the use of fabric covering is not without its effect on acoustics. It reduces the effectiveness of these structures and raises acoustic absorption. In the paper, the authors analyzed the acoustical properties of a selected fabric used to cover sound diffusers. Sound absorption and scattering coefficients for a system composed of sound diffusers and a fabric situated at different distances d were measured. The results were compared to the sound absorption predicted on the basis of Kuttruff's and Mechel's theoretical models. Analysis of the results indicates that the fabric has a significant influence on the system's acoustic parameters. It is also observed, that fabric applied directly on a phase grating diffuser, produces higher absorption than when it is at some distance from it.

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An engineering method to measure the impact sound reduction due to soft coverings on heavyweight floors

et al. 2018

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Measurements of the Sound Absorption Coefficient of Auditorium Seats for Various Geometries of the Samples

Rubacha¹,

Pilch²,

Zastawnik³

2012

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This paper presents the results of measurements of the sound absorption coefficient of auditorium seats carried out in the laboratory using two methods. In the first one, small blocks of seats in various arrangements were studied in a reverberation chamber to determine the absorption coefficient of an auditorium of infinite dimensions. The results were compared to the values of the absorption coefficient measured using the second method, which involved samples enclosed within a frame screening the side surfaces of other auditorium blocks. The results of both methods allowed for the assessment of the sound absorption coefficient of an auditorium of any dimensions while taking into account the sound absorption by the side surfaces. The method developed by the authors will simplify the currently known measurement procedures.

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Test Signal Selection for Determining the Sound Scattering Coefficient in a Reverberation Chamber

Kamisiński¹,

Brawata²,

Pilch³

et al. 2012

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The paper focuses on the problem of test signal selection in determining the sound scattering coefficient in accordance with ISO 17497-1. Research shows that the use of MLS signal is preferred in this procedure. The sine sweep signal, despite its advantages, presents certain limitations if the sample is moving during measurement. An attempt has been made to develop a method that allows for minimization of error, demonstrating the dependence of the obtained values of the sound scattering coefficient on the rotational speed of the turntable and type of test signal. Conditions for the application of the sine sweep signals in continuous and discrete measurements were defined.

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Jarosław Rubacha

The Study of Sound Scattering Structures for the Purposes οf Room Acoustic Enhancement

Sound Diffusers with Fabric Covering

An engineering method to measure the impact sound reduction due to soft coverings on heavyweight floors

Measurements of the Sound Absorption Coefficient of Auditorium Seats for Various Geometries of the Samples

Test Signal Selection for Determining the Sound Scattering Coefficient in a Reverberation Chamber

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