FIRE RESISTANCE OF FLY ASH - POLYESTER GEOPOLYMER COMPOSITE

Diharjo, Kuncoro; Jamasri; Firdaus, Feris

dc.contributor.author	Diharjo, Kuncoro
dc.contributor.author	Jamasri
dc.contributor.author	Firdaus, Feris
dc.date.accessioned	2012-04-24T03:47:43Z
dc.date.available	2012-04-24T03:47:43Z
dc.date.issued	2007-10
dc.identifier.citation	Ardha I.G.N., “The use of Fly Ash Produced PLTU Suralaya For Castable Refractory”, Center Research and Development of Coal and Mineral Technology, Bandung, Indonesia, Web Master; http://www.tekmira.esdm.go.id. Diharjo K., Jamasri, dan Firdaus F., 2007a. “Effect of Particulate Size of Fly Ash and Fly Ash Weight Fraction To Flexural Properties of Fly Ash – Polyester Composite”, Proceding. International Conference on Chemical Science”, Gadjah Mada University, Indonesia, May 24-26, 2007. Diharjo K., Jamasri, dan Firdaus F., 2007b. “Tensile Properties of Fly Ash – Polyester Geopolymer Composite”, Proceding of Conference, The 6th National Seminar Design and Application of Technology 2007, Widya Mandala Catholic University Surabaya, July 19, 2007. JIS, 1998, Japan International Standard, JIS K-6911. Kasim A.A., 2001, "The melting Pont Study of Coal Ash For Three Oxide Component”, da", JBPTITBPP, Bandung, Indonesia. Khaerunisa H., “Toxicity of Fly Ash and Bottom Ash Waste Resulted by Coal-PLTU using in Sumatra and Kalimantan using Biological analysis”, Center Research and Development of Coal and Mineral Technology, Bandung, Indonesia, Web Master; http://www.tekmira.esdm.go.id. Kishore, Barpanda P., and Kulkarni S. M. (2005). Compression Strength of Saline Waterexposed Epoxy System Containing Fly Ash Particles, Journal of Reinforced Plastics and Composites; 24; 1567 Lyon, R. E., Balaguru, P. N., Foden, A., Sorathia, U., Davidovits, J. &. Davidovics, M., 1997, “Fire Resistant Alumino-Silicate Composites”, Center for Advanced Infrastructure and Transportation (CAIT), Civil & Environmental Engineering, Rutgers, The State University, Piscataway, NJ. Maiti, S. N. and Sharma, K. K. (1992). Studies on Polypropylene Composites Filled with Talc Particles, J. Mater. Sci., 27: 4605. Murugendrappa M.V., Khasim S., and Prasad M.V.N.A. (2005). Synthesis, characterization and conductivity studies of polypyrrole–fly ash composites, Bull. Mater. Sci., Vol. 28, No. 6pp. 565–569, Indian Academy of Sciences. QinetiQ, 2004, ”Macro-Scale Multi Component Material in Fire”, Warrington Fire Research/QinetiQ Proprietary, British. Ramakrishna H.V., Priya S.P., and Rai S.K., (2006). Effect of Fly Ash Content on Impact, Compression, and Water Absorption Properties of Epoxy Toughened with Epoxy Phenol Cashew Nut Shell Liquid–Fly Ash Composites, Journal of Reinforced Plastics and Composites, Vol. 25, No. 5, pp. 455 – 462. www.sagepub.com Reinforced Plastics Magazine, 2002, ”Fire-Safe composite for mass transit vehicles”, Reinforced Plastics Magazine, Vol 46. Sanadi A.r., Prasad S.V. dan Rohatgi P.K., 1986. “Sunhemp Fibre-Reinforced Polyester”, Journal of Materials Science 21, pp. 4299-4304, UK. Surdia T. and Saito Y., 2000. “Intoduction to Rngineering Materials”, Pradnya Paramita, Jakarta, Indonesia. Svehlova, V. and Poloucek, E. (1987). Angew. Makromol. Chem., 153(2505): 197.	en_US
dc.identifier.issn	0853-2850
dc.identifier.uri	http://hdl.handle.net/11617/950
dc.description.abstract	The development of PLTU using coal in Indonesia results the increasing of fly ash waste. The waste should be used carefully to eliminate environment pollution. The objective of this research is to investigate the fire resistance of the fly ash – polyester geopolymer composite. The fly ash-polyester composite was made by using a press mold method for 0, 30, 40, 50, 60, and 70 % of fly ash content (w/w). The fire resistance test was prepared by according to JIS K-6911 standard for 2 minutes of burning test time. The analysis in this research covers fire resistance, heat release, composite mass burned and smoke test. The fire resistance increases with the increasing of fly ash content. The longest burning time of the composite (42,92 second) occurs on the composite containing the highest fly ash content (70% of fly ash content). The heat release decreases with the increasing of fly ash content. The highest heat release (88,67%) occurs on the composite without fly ash. The least mass of the composite burned (12,34%) occurs on the composite containing 30% of fly ash content. The mouses smoked by smoke resulted of burning composite for 2 minutes indicate no difference behavior	en_US
dc.subject	geopolymer composite	en_US
dc.subject	fly ash	en_US
dc.subject	fire resistance	en_US
dc.subject	heat release	en_US
dc.subject	composite mass burned	en_US
dc.subject	smoke test	en_US
dc.title	FIRE RESISTANCE OF FLY ASH - POLYESTER GEOPOLYMER COMPOSITE	en_US
dc.type	Article	en_US

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Volume 18 No. 2, Oktober 2007

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