Research Article
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Year 2020, Volume: 4 Issue: 2, 70 - 76, 01.04.2020
https://doi.org/10.31127/tuje.596158

Abstract

References

  • Ballagh, Keith O. “Accuracy of Prediction Methods for Sound Transmission Loss.” Inter-Noise, vol. 47, no. 1, 2004, pp. 1–8.
  • Başbuğ, Ercüment. Sound Transmission Through Suspended Ceilings. Boğaziçi University, 2005.
  • Cambridge, Jason Esan. An Evaluation of Various Sound Insulation Programs and Their Use in the Design of Silent Rooms. Chalmers University Of Technology, 2006.
  • Carvalho, António Pedro O. “Acoustical Behavior of a New Lightweight Partition Made with Gypsum Board and Cork.” The Journal of the Acoustical Society of America, vol. 98, no. 5, Presented at the 130th meeting of the Acoustical Society of America, St. Louis MO, Nov.1995, 1995, p. 2879, doi:10.1121/1.413124.
  • Çoşgun, Turgay, et al. “A Research about the Noise Problems in Buildings Constructed with Tunnel Shuttering System.” Uygulamalı Yerbilimleri Sayı:1, 2008, pp. 65–72.
  • Díaz-Cereceda, Cristina, et al. “The Finite Layer Method for Modelling the Sound Transmission through Double Walls.” Journal of Sound and Vibration, vol. 331, no. 22, Journal of Sound and Vibration, 2012, pp. 4884–900, doi:10.1016/j.jsv.2012.06.001.
  • Faustino, Jorge, et al. “Impact Sound Insulation Technique Using Corn Cob Particleboard.” Construction and Building Materials, vol. 37, 2012, pp. 153–59, doi:10.1016/j.conbuildmat.2012.07.064.
  • Hernández-Olivares, F., et al. “Development of CorkGypsum Composites for Building Applications.” Construction and Building Materials, vol. 13, no. 4, 1999, pp. 179–86, doi:10.1016/S0950-0618(99)00021-5.
  • Ilgun, Abdulkerim, et al. “Determination of Sound Transfer Coefficient of Boron Added Waste Cellulosic and Paper Mixture Panels.” Scientific Research and Essays, vol. 5, no. 12, 2010, pp. 1530–35.
  • Karaağaçlioğlu, İbrahim Ethem. Bor ve Mineral Katkili Selülozik Yalitim Malzemesi Üretimi ve Karakterizasyonu. İstanbul Teknik Üniversitesi, 2012.
  • Özkan, Sadık. “Ses Yalitimi Uygulamalari.” TMMOB Makina Mühendisleri Odası Yalıtım Kongresi 23-24-25 Mart 2001 Eskişehir - Türkiye, TMMOB Makina Mühendisleri Odası, 2001, pp. 114–19.
  • Phillips, Richard Michael. Investigation of Transmission Loss through Double Wall Structures with Varying Small Air Gaps Using Modal Analysis . University of Louisville, 2014.
  • Senthilkumar, P. “Studies on the Transmission of Sound in Lightweight Building Components.” In Partial Fulfillment of the Requirements for the Degree of Doctor Of Philosophy, Srm University, Kattankulathur – 603 203, 2012.
  • Tadeu, A., and P. Santos. “Assessing the Effect of a Barrier between Two Rooms Subjected to Low Frequency Sound Using the Boundary Element Method.” Applied Acoustics, vol. 64, 2003, pp. 287–310.
  • Tadeu, António, et al. “Sound Insulation Provided by Single and Double Panel Walls—a Comparison of Analytical Solutions versus Experimental Results.” Applied Acoustics, vol. 65, no. 1, 2004, pp. 15–29, doi:10.1016/j.apacoust.2003.07.003.
  • Thomalla, Richard O. “Plumbing Appliance Noise-It Can Now Be Measured.” Architectural Engineering, Architectural Engineering, 2003, p. 3.
  • Uris, Antonio, et al. “The Influence of Slits on Sound Transmission through a Lightweight Partition.” Applied Acoustics, vol. 65, no. 4, 2004, pp. 421–30, doi:10.1016/j.apacoust.2003.11.006.
  • Warnock, A. C. C., and J. D. Quirt. “Control of Sound Gypsum Board Walls.” Institute for Research in Construction, National Research Council of Canada., vol. 1, no. Construction Technology Updated No. 1, 1997, pp.1–6, http://www.nrc-cnrc.gc.ca/ctusc/files/doc/ctusc/ctu-n1%0Aeng.pdf.
  • Zia, Ahmad Javid. Analysis of Experimentally Designed Soundproof Gypsum Partition Wall’s Sections in Terms of Structural Engineering. Selçuk University, 2014

DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™

Year 2020, Volume: 4 Issue: 2, 70 - 76, 01.04.2020
https://doi.org/10.31127/tuje.596158

Abstract

One of the biggest problems of using public spaces for constructions, such as high-rise buildings, offices, hospitals, and hotels, is noise caused by sound transmission through the lightweight partition walls used to divide volumes. In this study, experiments were carried out to determine the sound transmission coefficient of lightweight gypsum partition walls insulated by CelluBor. Experiments were performed in an anechoic test chamber consists of two separate cells. One cell was used as the sound source, and the other one was used as the receiver cell. A total of 12 samples were used in the experimental studies, which were categorized into four separate groups. The main features that distinguished these groups from each other were the profile height used in the samples and the number of gypsum board layers used on each side of the profiles. In addition, one blank (no insulation) sample, one half filled, and one fully filled with insulation material were used for each test group. The test samples were placed between two cells. The sound volume of the sound source was measured separately in dB in both cells, and the sound transmission coefficients of 12 different samples were determined. It was observed that the most efficient results were obtained only when half of the profile height was filled with the CelluBor material. The use of a composite material consists of boron and waste materials such as CelluBor as sound insulation material in lightweight partition walls can affect the sound transmission coefficient greatly.

References

  • Ballagh, Keith O. “Accuracy of Prediction Methods for Sound Transmission Loss.” Inter-Noise, vol. 47, no. 1, 2004, pp. 1–8.
  • Başbuğ, Ercüment. Sound Transmission Through Suspended Ceilings. Boğaziçi University, 2005.
  • Cambridge, Jason Esan. An Evaluation of Various Sound Insulation Programs and Their Use in the Design of Silent Rooms. Chalmers University Of Technology, 2006.
  • Carvalho, António Pedro O. “Acoustical Behavior of a New Lightweight Partition Made with Gypsum Board and Cork.” The Journal of the Acoustical Society of America, vol. 98, no. 5, Presented at the 130th meeting of the Acoustical Society of America, St. Louis MO, Nov.1995, 1995, p. 2879, doi:10.1121/1.413124.
  • Çoşgun, Turgay, et al. “A Research about the Noise Problems in Buildings Constructed with Tunnel Shuttering System.” Uygulamalı Yerbilimleri Sayı:1, 2008, pp. 65–72.
  • Díaz-Cereceda, Cristina, et al. “The Finite Layer Method for Modelling the Sound Transmission through Double Walls.” Journal of Sound and Vibration, vol. 331, no. 22, Journal of Sound and Vibration, 2012, pp. 4884–900, doi:10.1016/j.jsv.2012.06.001.
  • Faustino, Jorge, et al. “Impact Sound Insulation Technique Using Corn Cob Particleboard.” Construction and Building Materials, vol. 37, 2012, pp. 153–59, doi:10.1016/j.conbuildmat.2012.07.064.
  • Hernández-Olivares, F., et al. “Development of CorkGypsum Composites for Building Applications.” Construction and Building Materials, vol. 13, no. 4, 1999, pp. 179–86, doi:10.1016/S0950-0618(99)00021-5.
  • Ilgun, Abdulkerim, et al. “Determination of Sound Transfer Coefficient of Boron Added Waste Cellulosic and Paper Mixture Panels.” Scientific Research and Essays, vol. 5, no. 12, 2010, pp. 1530–35.
  • Karaağaçlioğlu, İbrahim Ethem. Bor ve Mineral Katkili Selülozik Yalitim Malzemesi Üretimi ve Karakterizasyonu. İstanbul Teknik Üniversitesi, 2012.
  • Özkan, Sadık. “Ses Yalitimi Uygulamalari.” TMMOB Makina Mühendisleri Odası Yalıtım Kongresi 23-24-25 Mart 2001 Eskişehir - Türkiye, TMMOB Makina Mühendisleri Odası, 2001, pp. 114–19.
  • Phillips, Richard Michael. Investigation of Transmission Loss through Double Wall Structures with Varying Small Air Gaps Using Modal Analysis . University of Louisville, 2014.
  • Senthilkumar, P. “Studies on the Transmission of Sound in Lightweight Building Components.” In Partial Fulfillment of the Requirements for the Degree of Doctor Of Philosophy, Srm University, Kattankulathur – 603 203, 2012.
  • Tadeu, A., and P. Santos. “Assessing the Effect of a Barrier between Two Rooms Subjected to Low Frequency Sound Using the Boundary Element Method.” Applied Acoustics, vol. 64, 2003, pp. 287–310.
  • Tadeu, António, et al. “Sound Insulation Provided by Single and Double Panel Walls—a Comparison of Analytical Solutions versus Experimental Results.” Applied Acoustics, vol. 65, no. 1, 2004, pp. 15–29, doi:10.1016/j.apacoust.2003.07.003.
  • Thomalla, Richard O. “Plumbing Appliance Noise-It Can Now Be Measured.” Architectural Engineering, Architectural Engineering, 2003, p. 3.
  • Uris, Antonio, et al. “The Influence of Slits on Sound Transmission through a Lightweight Partition.” Applied Acoustics, vol. 65, no. 4, 2004, pp. 421–30, doi:10.1016/j.apacoust.2003.11.006.
  • Warnock, A. C. C., and J. D. Quirt. “Control of Sound Gypsum Board Walls.” Institute for Research in Construction, National Research Council of Canada., vol. 1, no. Construction Technology Updated No. 1, 1997, pp.1–6, http://www.nrc-cnrc.gc.ca/ctusc/files/doc/ctusc/ctu-n1%0Aeng.pdf.
  • Zia, Ahmad Javid. Analysis of Experimentally Designed Soundproof Gypsum Partition Wall’s Sections in Terms of Structural Engineering. Selçuk University, 2014
There are 19 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Abdulkerim İlgün 0000-0002-9784-460X

Ahmad Javid Zia 0000-0002-2808-6972

Publication Date April 1, 2020
Published in Issue Year 2020 Volume: 4 Issue: 2

Cite

APA İlgün, A., & Zia, A. J. (2020). DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™. Turkish Journal of Engineering, 4(2), 70-76. https://doi.org/10.31127/tuje.596158
AMA İlgün A, Zia AJ. DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™. TUJE. April 2020;4(2):70-76. doi:10.31127/tuje.596158
Chicago İlgün, Abdulkerim, and Ahmad Javid Zia. “DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™”. Turkish Journal of Engineering 4, no. 2 (April 2020): 70-76. https://doi.org/10.31127/tuje.596158.
EndNote İlgün A, Zia AJ (April 1, 2020) DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™. Turkish Journal of Engineering 4 2 70–76.
IEEE A. İlgün and A. J. Zia, “DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™”, TUJE, vol. 4, no. 2, pp. 70–76, 2020, doi: 10.31127/tuje.596158.
ISNAD İlgün, Abdulkerim - Zia, Ahmad Javid. “DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™”. Turkish Journal of Engineering 4/2 (April 2020), 70-76. https://doi.org/10.31127/tuje.596158.
JAMA İlgün A, Zia AJ. DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™. TUJE. 2020;4:70–76.
MLA İlgün, Abdulkerim and Ahmad Javid Zia. “DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™”. Turkish Journal of Engineering, vol. 4, no. 2, 2020, pp. 70-76, doi:10.31127/tuje.596158.
Vancouver İlgün A, Zia AJ. DETERMINATION OF SOUND TRANSMISSION COEFFICIENT OF GYPSUM PARTITION WALLS INSULATED BY CELLUBOR™. TUJE. 2020;4(2):70-6.
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