KETAHANAN API KAYU SENGON (Paraserianthes falcataria (L.) Nielsen) YANG DIAWETKAN DENGAN BAHAN PENGAWET BORAKS
Fire Resistance Of Sengon (Paraserianthes Falcataria (L.) Nielsen) Preserved With Borax
DOI:
https://doi.org/10.24259/perennial.v17i1.13650Kata Kunci:
Borax, Concentration, Cold immersion, Fire Resistance, RetentionAbstrak
Wood as building raw materials still very needed, but flammability is one of the detrimental properties. Increasing fire resistance with Borax as fire retardants are needed to increase safety, reduce material and non-material losses due to the impact of fire. The aim of this study was to determine the properties of cold immersion of Sengon in Borax solution for 5 days with different concentrations as a fire retardant. Fire resistance testing used the ASTM E69-02 standard. ANOVA analysis with Completely Randomized Design at the 95% confidence level and LSD (Least Significant Difference) Test. The results showed that immersion Sengon with Borax solution with different concentrations had a significant effect. The average value of the air dry moisture content of the Sengon was 14.08%, the air dry density was 0.33g/cm3, the oven dry density was 0.30g/cm3, the highest Borax preservative retention was at a concentration of 15% of 38.04 kg/m3, the smallest burnst Intensity is 12.58% at 15% concentration, the lowest maximum combustion temperature is 210.1ᵒC at 10% concentration, and the smallest combustion time is 437.5 seconds at 15% concentration. In general, the cold immersion preservation treatment of 15% Borax solution shows the best fire resistance properties, although it still does not meet ASTM E69-02 standards.Unduhan
Referensi
ASTM. (2002). ASTM E69-02: Standard Method for Combustible Properties of Treated Wood by the Fire-Tube Apparatus. ASTM International. West Conshohocken. United States.
Astana S., Aditya Hani, Wesman Endom, Hani Siti Nuroniah, Neo Endra Lelana, Dewi Ratna Kurniasari, dan Indah Bangsawan, (2016). Kiat Berbisnis Sengon: Tanam Sekali, Untung Berkali-kali. Pusat Penelitian dan Pengembangan Sosial, Ekonomi, Kebijakan dan Perubahan Iklim. Cetakan Pertama, Desember 2016. ISBN 978-602-6961-17-4 Bogor. Forda Press.
Bachtiar G., (2007). Pengawetan Beberapa Jenis Kayu Dengan Proses Rendaman Dingin. Jurnal Menara. Jurnal Teknik Sipil. Vol. 2 No.1. DOI. https://doi.org/10.21009/jmenara.v2i1.7877. Universitas Negeri Jakarta. Penerbit Jurusan Teknik Sipil – Fakultas Teknik.. Jakarta.
Barly dan Martawijaya A., (2000). Keterawetan 95 Jenis Kayu Terhadap Impregnasi Dengan Bahan Pengawet CCA. Buletin Penelitian Hasil Hutan. Volume 18 No. 2. Hal 69 -78. Bogor.
Barly dan Lelana N.E. (2010). Pengaruh Ketebalan Kayu, Konsentrasi Larutan dan Lama Perendaman Terhadap Hasil Pengawetan Kayu. Vol. 28.No.1. Hal 1-8. Bogor. Pusat Litbang Hasil Hutan.
Can A., Grzeskowiak W., Özlüsoylu I., (2018). Improving the Fire Resistance of Heat Treated Wood by Using Environment-Friendly Substance. Journal of Bartin Faculty of Forestry. 20 (3): 519-524. Turkiye. Bartin University.
Dumanauw J.F., (2001). Mengenal Kayu. Edisi 2 Cetakan 2. Jakarta: PT. Gramedia.
Effendi, A.H., (2007). Natrium Silikat Sebagai Bahan Penghambat Api Aman Lingkungan. Jurnal Teknologi Lingkungan. Vol. 8 No. 3. Hal 245-252. ISSN. 1441-318X. Jakarta. September 2007.
Hadikusumo S.A., (2003). Pengawetan Kayu: Perlakuan Dengan Bahan Penghambat Api. Fakultas Kehutanan Universitas Gadjah Mada. Yogyakarta.
Hunt G. M. dan George A. G., (1986). Pengawetan Kayu. Edisi 1 cetakan 1: Penerjemah Mohamad Yusuf. Jakarta. Akademika Pressindo.
Fouladi M.H., Namasivayam S.N., Hwa C.C., Xin P.Z., Xin S.Y.P.,Ghassem M., dan Najafabadi H.S., (2015). Enhancement of Coir Fiber Fire Retardant Property. Journal of Engineering Science and Technoloy. School of Engineering, Taylor’s University. Malaysia.
Nicholas, D.D., (1987). Kemunduran (Deteriorasi) Kayu dan Pencegahannya dengan Perlakuan-perlakuan Pengawetan. Jilid I dan II. Yogyakarta..Airlangga University Press.
Nugroho, T.A. dan Salamah Z., (2015). Pengaruh Lama Perendaman dan Konsentrasi Biji Sengon (Paraserianthes falcataria (L.). Nielsen). JUPEMASI-PBIO, Vol. 9 No. 3. Reports (tema khusus). Morrilton Arkansas, AS. Winrock International.
Östman B, Voss A, Hughes A, Hovde PJ, dan Grexa O., (2001). Durability of Fire Retardant Treated Wood Products At Humid And Exterior Conditions – Review of Literature. Fire Mater. 25:95-104.
Peek. R.D., (1989). Wood Protection in Indonesia with Reference to Special Conditions in East Kalimantan.
Santoso, M dan Hamidah, N., (2012). Efektivitas Natrium Silikat Sebagai Bahan Pengawet Anti Api Dan Anti Rayap Pada Kayu Meranti Merah. Jurusan Kehutanan, Fakultas Kehutanan,Universitas Palangka Raya..
Salmayanti, Ariyanti, dan Abdul Hapid., (2013). Pengaruh Konsentrasi Dan Lama Perendaman Bahan Pengawet Daun Tembelekan (Lantana camara L.) Pada Kayu Bayur (Pterospermum sp.) Terhadap Serangan Rayap Tanah (Coptotermes sp.). WARTA RIMBA Volume 1, Nomor 1. Desember 2013.
Yuliyanto A., Sutjipto, A. H.,, dan Listyanto T., (2009). Uji Ketahanan Api Kayu Trembulu (Maesopsis eminii Engl.) Dengan Natrium Silikat Pada Berbagai Konsentrasi Dan Tekanan. Prosiding Seminar Nasional MAPEKI XII. Hal.648 – 657. Jawa Barat. Bandung.
Zeinali, D. Koalitis, J. Schmid, (2018). Guide for Obtaining Data from Reaction to Fire Tests. Version 1 (2018). DOI 10.3929/ethz‐b‐000319575. Switzerland, ETH Zürich.A. PENDAHULUAN