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2022 Vol.41, Issue 3 Preview Page

Research Article

31 May 2022. pp. 302-311
Abstract
References
1
M. Garai and P. Guidorzi, "European methodoloty for testing the airborne sound insulaion characteristics of noise barriers in situ: Experimental verification and comparison with laboratory data," J. Acoust. Soc. Am. 108, 1054-1067 (2000). 10.1121/1.128681111008808
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Ministry of Environment, "Performance and installation standards of sound barrier facilities," Ministry of Environment notice, No.1999-150, 1.6, 1999.
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Ministry of Environment, "Performance and installation standards of sound barrier facilities," Ministry of Environment notice, No.2014-196, 11. 14, 2014.
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KS F 4770-1 Sound Barrier Panel - Metal, 2001.
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KS F 4770-2 Sound Barrier Panel - Color Metal, 2001.
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KS F 4770-3 Sound Barrier Panel - Non Metal, 2001.
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KS F 4770-4 Sound Barrier Panel - Wood, 2001.
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ISO 10140-2, Acoustics - Laboratory Measurement of Sound Insulation of Building Elements - Part 2: Measurement of Airborne Sound Insulation, 2021.
9
EN 1793-2:2018, Road Traffic Noise Reducing DevicesTest Method for Determining the Acoustic Performance Part2:Intrinsic Characteristics of Airborne Sound Insulation Under Diffuse Sound Field Conditions, 2018.
10
EN 16272-1:2012, Railway Applications-Track-Noise Barriers and Related Devices Acting on Airborne Sound Propagation-Test Method for Determining the Acoustic Performance-Part3-1:Normalized Railway Nise Spectrum and Single Number Ratings for Diffuse Field Application, 2012.
11
C. G. Cho, "Traffic Noise Characteristic of Urban Major Roads by the Traffic Flow Conditions" (in Korean), J. Korean Soc. Living Environ. Sys. 17, 585-594 (2010).
Information
  • Publisher :The Acoustical Society of Korea
  • Publisher(Ko) :한국음향학회
  • Journal Title :The Journal of the Acoustical Society of Korea
  • Journal Title(Ko) :한국음향학회지
  • Volume : 41
  • No :3
  • Pages :302-311
  • Received Date :2022. 03. 30
  • Revised Date :2022. 04. 25
  • Accepted Date : 2022. 05. 03