POROUS ABSORBER OF NOISE CONTROL PANEL MANUFACTURING FROM COCONUT FIBER AND PET WASTE FIBER (SHOODY FIBER)

Saeful Islam, Mochammad Danny Sukardan, Eva Novarini, Farri Aditya

Abstract


Noise exposure could have a negative effect on humans in the form of hearing loss, sleep disturbances, high blood pressure and heart problems, respiratory and metabolic disorders, mental health disorders and cognitive impairment. So noise control efforts are needed. Noise control efforts was carried out by making porous absorber of noise control panel by utilizing abundant natural resources in the form of coconut fiber, utilization of PET fiber from textile waste (shoody fiber) and low melt polyester. From the test results obtained that all combinations meet the criteria for sound absorption from class B to E, and the results of maximum absorption are 0.88 absorption coefficient obtained by a combination of three layers between 50% coconut fiber, 20% shoody fiber and 30% low melt polyester.

               


Keywords


coconut fiber; PET waste fiber; composite; porous absorber; noise control panel

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References


Kementerian Negara Lingkungan Hidup. Keputusan Menteri Negara Lingkungan Hidup No. 48 Tahun 1996 Tentang : Baku Tingkat Kebisingan. Keputusan Menteri Negara Lingkungan Hidup No. 48 Tentang : Baku Tingkat Kebisingan (1996).

Abbaspour, M., Karimi, E., Nassiri, P. & Reza, M. Hierarchal assessment of noise pollution in urban areas – A case study. Transp. Res. PART D 34, 95–103 (2015).

Jakovljevic, B., Paunovic, K. & Belojevic, G. Road-traffic noise and factors influencing noise annoyance in an urban population. Environ. Int. (2008). doi:10.1016/j.envint.2008.10.001

Sundstrom, E., Town, J. P., Rice, R. W., Osborn, D. P. & Brill, M. OFFICE NOISE, SATISFACTION, AND PERFORMANCE. Environ. Behav. 26, 195–222 (1994).

Saputra, A. J. Analisis Kebisingan Peralatan Pabrik Dalam Upaya Peningkatan Penaatan Peraturan Keselamatan Dan Kesehatan Kerja Pt. Pupuk Kaltim. (Universitas Diponegoro, 2007).

Konkani, A. & Oakley, B. Noise in hospital intensive care units-a critical review of a critical topic. J. Crit. Care 27, 522.e1-522.e9 (2012).

Schreckenberg, D., Meis, M., Kahl, C., Peschel, C. & Eikmann, T. Aircraft Noise and Quality of Life around Frankfurt Airport. Int. J. Environmntal Res. Public Heal. 7, 3382–3405 (2010).

Kujawa, S. G. & Liberman, M. C. Adding Insult to Injury: Cochlear Nerve Degeneration after ‘Temporary’ Noise-Induced Hearing Loss. J. Neurosci. 29, 14077–14085 (2009).

Croy, I., Smith, M. G. & Waye, K. P. Effects of train noise and vibration on human heart rate during sleep: An experimental study. BMJ Open 3, 1–10 (2013).

Reddy, P. B. & Jherwar, S. Effects of noise pollution with relation to hypertension. Trends Life Sci. (2016). doi:10.13140/RG.2.1.3357.0324

Babisch, W. et al. Noise annoyance - A modifier of the association between noise level and cardiovascular health? Sci. Total Environ. 452–453, 50–57 (2013).

Recio, A., Linares, C., Banegas, J. R. & Díaz, J. Road traffic noise effects on cardiovascular, respiratory, and metabolic health: An integrative model of biological mechanisms. Environ. Res. 146, 359–370 (2016).

Haines, M. M., Stansfeld, S. A., Job, R. F. S., Berglund, B. & Head, J. Chronic aircraft noise exposure, stress responses, mental health and cognitive performance in school children. Psychol. Med. 31, 265–277 (2001).

Center for Disease Control and Prevention National Institute for Occupational Safety and Health. CRITERIA FOR A RECOMMENDED STANDARD: Occupatinal Noise Exposure Revised Criteria 1998. (DHHS (NIOSH) Publication, 1998).

Brown, A. L. Effects of Road Traffic Noise on Health : From Burden of Disease to Effectiveness of Interventions. Procedia Environ. Sci. 30, 3–9 (2016).

Nayak, R. & Padye, R. Acoustic textiles: An Introduction. in ACCOUSTIC TEXTILES (eds. Padhye, R. & Nayak, R.) 1–32 (Springer Nature, 2016). doi:10.1007/978-981-10-1476-5

Qiu, X. Principles of Sound Absorbers. in ACCOUSTIC TEXTILES (eds. Padhye, R. & Nayak, R.) 58, 43–72 (Springer Nature, 2016).

Direktorat Jenderal Perkebunan Kementerian Pertanian. Statistik Perkebunan Indonesia Komoditas Kelapa 2015-2017. (Sekretariat Direktorat Jenderal Perkebunan, Direktorat Jenderal Perkebunan, Kementerian Pertanian, 2016).

Eriningsih, R., Widodo, M. & Marlina, R. Pembuatan dan Karakterisasi Peredam Suara dari Bahan Baku Serat Alam. Arena Tekst. 29, 1–8 (2014).

Kartikaratri, Y. M., Subagio, A. & Widiyandari, H. Pembuatan Komposit Serat Serabut Kelapa dan Resin Fenol Formaldehide Sebagai Material Peredam Akustik. Berk. Fis. 15, 87–90 (2012).

Khuriati, A., Komaruddin, E. & Nur, M. Disain Peredam Suara Berbahan Dasar Sabut Kelapa dan Pengukuran Koefisien Penyerapan Bunyinya. Berk. Fis. 9, 43–53 (2006).

BSN. SNI 0264: Tekstil – Cara uji identifikasi serat pada bahan tekstil. (Badan Standardisasi Nasional Indonesia, 2015).

BSN. SNI ISO 5084: Tekstil - Cara uji tebal tekstil dan produk tekstil. (Badan Standardisasi Nasional Indonesia, 2010).

BSN. SNI ISO 3801: Tekstil - Kain tenun - Cara uji berat kain per satuan panjang dan berat kain per satuan luas. (Badan Standardisasi Nasional Indonesia, 2010).

ASTM. D6413: Standard Test Method for Flame Resistance of Textiles ( Vertical Test ). ASTM International (American Standard Testing and Material Testing International, 2013). doi:10.1520/D6413

BSN. SNI 08-1512: Cara uji tahan api bahan tekstil. (Badan Standardisasi Nasional Indonesia, 1989).

ISO. ISO 10534-2(E): Acoustics — Determination of sound absorption coefficient and impedance in impedance tubes — Part 2: Transfer-function method. (International Organization for Standardization, 1998).

Mutia, T. et al. Pemanfaatan Limbah Serat Kapas dari Industri Pemintalan untuk Felt dan Papan Serat. Arena Tekst. 33, 37–46 (2018).

Rindrawan, F. N. F. Karateristik kekuatan komposit serabut kelapa dengan variasi arah serat. (Sanata Dharma, 2016).

Ohta, Y. & Kajiwara, K. High performance fibers: structure, characteristics and identification. in Identification of textile fibers (ed. Houck, M. M.) 88–110 (Woodhead Publishing Limited, 2009).

BS. BS EN ISO 11654: Acoustics— Soundabsorbers for use in buildings— Rating of sound absorption. (British Standards Institution, 1997).




DOI: http://dx.doi.org/10.31266/at.v33i2.4273

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