UJI EKSPERIMENTAL SEMEN PAPAN PARTIKEL BERBAHAN BAKU LIMBAH FLY ASH BATU APUNG SEBAGAI BAHAN PEREDAM SUARA

https://doi.org/10.22146/ajse.v2i1.4969

Apip Amrullah(1*)

(1) Lambung Mangkurat University
(*) Corresponding Author

Abstract


By the development in technology especially in architecture and industry with its noise activity, encourage us to do some efforts to solve noise problem. One might done is utilize pumice as noise absorber. Raw material used in this reaserch is pumice ash. Mixing compotsition variation between cement composition, pumice ash as sand subtitution, with comparison mixing composition at 1 : 6 (1 cemen : 6 ash), 1 : 8 (1 cement : 8 ash :), 1 : 10 (1 cement : 10 ash). Sound absorbtion coefisien are measured by standing wave tube apparatus. The result of the research indicates that mixing composition affects the sound absorbtion coefisien. Reaserch shows taht 1 : 6, 1 :8 and 1 : 10 sound absorbtion coefisien which is 0.96, 0,86 and 0.89 in 8000 Hz frequency. Comparison at 1 : 6, 1 : 8 and 1 : 10 (cement : sand ) has the best absorbtion coefisien at comparation 1 : 10 which is 0.98 with 4000 Hz frequency (middle level frequency).

Keywords


pumice ash; sound absorbtion coefisien; pannel



References

Anggito. 2008. “Pengaruh Pumice Terhadap Karakteristik Beton Polimer Sebagai Baban Bangunan Jenis Beton Ringan Struktural”. Pusat Penelitian LIPI,Serpong, Tangerang.

Attenborough, K., 1996, “Porous Materials for Scale Model Experiments in Outdoor Sound Propagation”, Journal of Sound and Vibration.

Bullen, R.B., dan Fricke, F.R., 1982, “Sound Propagation, Throught Vegatation” Journal of Sound and Vibration.

Davis dan Cornwel. 1991, “Introduction to Envirromental Engineering”, Mc Graw-Hill International Edition, Second Edition, New York.

Doelle, L.L., Lea Prasetyo, 2006, “Akustik Lingkungan”. Erlangga, Jakarta.

Darmanijati, 2003, “Efek Kombinasi Perlakuan Terhadap Tebal Insulasi Gabus Frekuansi dan Jarak antar Lubang pada Sekat Melamin untuk Menurunkan Kebisingan”.

Doelle, L.L.,1985, “Akustik Lingkungan”. Erlangga, Jakarta.

Himawanto, D.A., 2007, “Karakteristik Panel Akustik Sampah Kota Pada Frekuensi Rendah dan Frekuensi Tinggi Akibat Variasi Bahan Organik”.

Kinsler, 1982, “Fundamentals of Acoustic”

Lord, P., dan Duncan Templeton, 2001, “Detail Akustik”.

Lee dan Joo, 2003, “Pengaruh penambahan kadar terhadap harga Noise Absorption Coefficient (NAC) dengan low melting point polyester (LMP)”.

Miasa, I Made dan Rachmat Sriwijaya, 2004, “Penelitian Sifat-Sifat Akustik Dari Bahan Kertas dan Plastik Sebagai Penghalng Kebisingan”, Media Teknik, No, 1 Tahun XXVI.



DOI: https://doi.org/10.22146/ajse.v2i1.4969

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ASEAN Journal of Systems Engineering (AJSE) 
P-ISSN: 2338-2309 || E-ISSN: 2338-2295
Master in Systems Engineering
Faculty of Engineering
Universitas Gadjah Mada
Jl. Teknika Utara No.3, Barek, Yogyakarta, Indonesia 55281 
Website: https://journal.ugm.ac.id/ajse
Email: jurnalajse@gmail.com | ajse@ugm.ac.id