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Experimental Investigations of the Sound Transmission Loss of Window Panes


Affiliations
1 Acoustics Section, National Physical Laboratory, Dr. K.S. Krishnan Road, New Delhi, India
     

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Penetration of exterior noise into a building occurs in many cases primarily through the window panes. An extensive study at the Acoustics Section of NPL provided a database of sound transmission loss measurements through many variations of glass thickness and air gap. Understanding the behaviour of the glass and cavity are an essential first step in designing or selecting window panes to attenuate outdoor noise. Sound transmission through window panes is governed by the same physical principles that affect walls, but practical noise control measures are influenced by the properties of glass and the characteristics of window assemblies. Increasing the glass thickness, for example, gives greater noise reduction at most frequencies, but the stiffness of glass limits the improvement. Using multiple layers (double or triple glazing) increases noise reduction at most frequencies, but this is dependent on the separation of the layers. The influence of typical window pane characteristics on sound transmission is discussed in this paper.

Keywords

Sound Transmission, Window Panes, Mass Law, Mass-Air-Mass (Cavity Construction).
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  • Experimental Investigations of the Sound Transmission Loss of Window Panes

Abstract Views: 169  |  PDF Views: 1

Authors

Mahavir Singh
Acoustics Section, National Physical Laboratory, Dr. K.S. Krishnan Road, New Delhi, India
Omkar Sharma
Acoustics Section, National Physical Laboratory, Dr. K.S. Krishnan Road, New Delhi, India
Dharam Pal Singh
Acoustics Section, National Physical Laboratory, Dr. K.S. Krishnan Road, New Delhi, India

Abstract


Penetration of exterior noise into a building occurs in many cases primarily through the window panes. An extensive study at the Acoustics Section of NPL provided a database of sound transmission loss measurements through many variations of glass thickness and air gap. Understanding the behaviour of the glass and cavity are an essential first step in designing or selecting window panes to attenuate outdoor noise. Sound transmission through window panes is governed by the same physical principles that affect walls, but practical noise control measures are influenced by the properties of glass and the characteristics of window assemblies. Increasing the glass thickness, for example, gives greater noise reduction at most frequencies, but the stiffness of glass limits the improvement. Using multiple layers (double or triple glazing) increases noise reduction at most frequencies, but this is dependent on the separation of the layers. The influence of typical window pane characteristics on sound transmission is discussed in this paper.

Keywords


Sound Transmission, Window Panes, Mass Law, Mass-Air-Mass (Cavity Construction).