알루미늄칩과 타공판을 이용한 방음벽 충진재의 흡음특성

이영중; 김대건; 박경화; 김영도; Young Jung Lee; Dae-Gun Kim; Kyung Hwa Park; Young Do Kim

Korean Journal of Materials Research, Vol.19, No.7, 382-385, July, 2009

DOI10.3740/MRSK.2009.19.7.382 Export Citation

알루미늄칩과 타공판을 이용한 방음벽 충진재의 흡음특성

Absorption Characteristics of Sound Proof Wall by Scrap Aluminum and Perforated Plate

이영중, 김대건, 박경화¹, 김영도 ^†

한양대학교 신소재공학부
¹㈜ 포이즈 앤 컴팩트

Young Jung Lee, Dae-Gun Kim, Kyung Hwa Park¹, and Young Do Kim^†

Division of Materials Science and Engineering, Hanyang University, Korea
¹Poise & Compact Co., Korea

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Efforts to reduce noise in industrial application fields, such as automobiles, aircrafts, and plants have been gaining considerable attention while a sound proof wall to protect people from the noise has been intensively investigated by many researchers. In this study, our research group suggested creating a new sound proof wall composed of scrap aluminum chips and perforated plates in a commercial polyester sound proof wall, which was then successfully fabricated. This wall’s sound absorption characteristics were measured by an impedance tube method. The sound absorption property was evaluated by measuring the Noise Reduction Coefficient (NRC) to the standard, ASTM C 423-90a. The noise reduction coefficient of the sound proof wall composed of 3.5 vol.% and 7.5 vol.% of scrap aluminum chips relatively increased to 5% and 8% compared to the commercial polyester sound proof wall. The scrap aluminum perforated plate also relatively increased to 13% compared to the commercial polyester sound proof wall.

Keywords:sound absorption property;sound absorption coefficient;scrap aluminum chip;scrap aluminum perforated plate;noise reduction coefficient

[References]

Jung SS, Trans. Kor. Soc. Noise and Vibra. Eng., 12(6), 404 (2002)
Noureddine A, Panneton R, Noise Control Eng., 44(5), 235 (1996)
Lee YS, Kim ID, Lee JG, J. Kor. Soc. Auto. Eng., 14(4), 68 (1992)
Jung SS, Kim YT, Lee WS, J. Acous. Soc. Kor., 21(7), 624 (2002)
Byun HS, Lee TG, Polymer, (in Korean), 25(3), 427 (2001)
Ashby MR, Gibson LJ, Cellular Solids, 2nd ed., p.304, Cambridge U. P., Cambridge, England, (1997). (1997)
Brigitte K, Degischer HP, Handbook of Cellular Metals: production, precessing, applications, p.231, Wiley- VCH, USA, (2002). (2002)
ASTM C 423-90a, Standard Test Method for Sound Absorption and Sound Absorption Coefficient by the Reverberation Room Method.

[Related Articles]

[1] Jung SS, Trans. Kor. Soc. Noise and Vibra. Eng., 12(6), 404 (2002)

[2] Noureddine A, Panneton R, Noise Control Eng., 44(5), 235 (1996)

[3] Lee YS, Kim ID, Lee JG, J. Kor. Soc. Auto. Eng., 14(4), 68 (1992)

[4] Jung SS, Kim YT, Lee WS, J. Acous. Soc. Kor., 21(7), 624 (2002)

[5] Byun HS, Lee TG, Polymer, (in Korean), 25(3), 427 (2001)

[6] Ashby MR, Gibson LJ, Cellular Solids, 2nd ed., p.304, Cambridge U. P., Cambridge, England, (1997). (1997)

[7] Brigitte K, Degischer HP, Handbook of Cellular Metals: production, precessing, applications, p.231, Wiley- VCH, USA, (2002). (2002)

[8] ASTM C 423-90a, Standard Test Method for Sound Absorption and Sound Absorption Coefficient by the Reverberation Room Method.