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Combustion Characteristics of Useful Imported Woods
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 Title & Authors
Combustion Characteristics of Useful Imported Woods
Seo, Hyun Jeong; Kang, Mee Ran; Park, Jung-Eun; Son, Dong Won;
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The purpose of this study is to analyze the combustion and thermal properties in order to establish baseline data for the fire safety evaluation of imported wood. The combustion properties such as heat release rate, total heat release, gas yield, and mass loss were analyzed by the method of cone calorimeter test according to KS F ISO 5660-1 and thermogravimetric analysis (TGA). Analyzed species are five kinds of species as Merbau, Mempening, Garo Garo, Malas, and Dillenia. The heat released rate values showed the highest value of Malas as , and Dillenia showed the lowest value as . The data values were confirmed in the following order: Malas > Mempening > Garo Garo > Merbau > Dillenia. In case of the total heat release, it was measured in the following order: Mempening > Malas > Garo Garo > Merbau > Dillenia. The gas analysis results were that Dillenia showed the highest value of 0.034. Also, Mempening and Malas showed the lowest at 0.020 in the . Min of mass reduction was shown as 74.79% Sargent cherry, on the other hand, Malas had a 83.52%. It showed a correlation between and of the CO and generation and combustion characteristics of wood. The thermal decomposition temperature of the wood in the TGA were as follow that Merbau , Mempening , Garo Garo , Malas , Dillenia . The aim of this study is to determine the combustion properties of imported wood according to ISO 5660-1. And, based on the results of this study, we would proceed with further research for improving the fire safety of wood for construction.
combustion properties;cone calorimeter;heat release rate;mass loss rate;thermal stability;
 Cited by
Byrne, C.E., Nagle, D.C. 1997. Carbonization of wood for advanced materials applications. Carbon 35(2): 259-266. crossref(new window)

Chung, Y.J., Spearpoint, M. 2007. Combustion properties of native Korean wood species. International Journal on Engineering Performance- Based Fire Codes 9(3): 118-125.

Chung, Y.J. 2009. Comparison of combustion properties of the Pinus regida, Castanea sativa and Zelkoa serrata. Journal of Korean Institute of Fire Science and Engineering 23(4): 73-78.

Delichatsios, M., Paroz, B., Bhargava, A. 2003. Flammability properties for charring materials. Fire Safety Journal 38(3): pp. 219-228. crossref(new window)

Eom, Y.G. 2007. Wood and engineered wood as the eco-friendly building materials. Air cleaning technology 20(2): 26-49.

Fu, Y., Lu, S., Li, K., Liu, C., Cheng, X., Zhang, H. 2015. An experimental study on burning behaviors of 18650 lithium ion batteries using a cone calorimeter. Journal of Power Sources 273: 216-222. crossref(new window)

Gao, M., Ling, B., Yang, S., Zhao, M. 2005. Flame retardance of wood treated with guanidine compouns characterized by thermal degradation behavior. Journal of Analytical and Applied Pyrolysis 73(1): 151-156. crossref(new window)

Gratkowski, M.T., Dembsey, N.A., Beyler, C.L. 2006. Radiant smoldering ignition of plywood. Fire Safety Journal 41(6): 427-443. crossref(new window)

Guillaume, E., Marquis, D., Saragoza, L. 2014. Calibration of flow rate in cone calorimeter tests. Fire and Materials 38: 194-203. crossref(new window)

Kim, H.S., Kim, S., Kim, H.J., Yang, H.S. 2006. Thermal properties of bio-flour-filled polyolefin composites with different compatibizing agent type and content. Thermochimica Acta 451(1-2): 181-188. crossref(new window)

Kim, J., Lee, J.H., Kim, S. 2012. Estimating the fire behavior of wood flooring using a cone calorimeter. Journal of Thermal Analysis and Calorimetry 110: 677-683. crossref(new window)

Kim, S.H. 2004. Wood species Information. Wood Korea.

KS F ISO 5660-1. 2003. Reaction to fire test - Heat release. smoke production and mass loss rate - Part 1: Heat release rate (Cone calorimeter method).

Lee, B.H., Kim, H.S., Kim, S., Kim, H.J., Lee, B.W., Deng, Y., Feng, Q., Luo, J. 2011. Evaluating the flammability of wood-based panels and gypsum particleboard using a cone calorimeter. Construction and Materials 25(7): 3044-3050. crossref(new window)

Li, B. 2003. Influence of polymer additives on thermal decomposition and smoke emission of poly (vinyl chloride). Polymer Degradation and Stability 82(3): 467-476. crossref(new window)

Lowden, L.A., Hull, T.R. 2013. Flammability behaviour of wood and a review of the methods for its reduction. Fire Science Reviews 2(4): 1-19. crossref(new window)

Randriamananantena, T., Razafindramisa, F.L., Ramanantsizehena, G., Bemes, A., Lacabane, C. 2009. Thermal behaviour of three woods of Madagascar by thermogravimetric analysis in inert atmosphere, Proceedings of the Fourth High-energy Physics International Conference, Agugust 21-28, Antananarivo, Madagascar.

Seo, H.J., Kim, S., Son, D.W., Park, S.B. 2013. Review on Enhancing Flame Retardant Performance of Building Materials using Carbon Nanomaterials. Journal of the society of living environmental system Korea 20(4): 514-526.

Seo, H.J., Kang, M.R., Son, D.W. 2015. Combustion Properties of Woods for Indoor Use (II). Journal of the Korean wood science and technology 43(4): 478-485. crossref(new window)

Seo, H.J., Kim, S., Huh, W., Park, K.W., Lee, D.R., Son, Kim, Y.S. 2015. Enhancing the flameretardant performance of wood-based materials using carbon-based materials. Journal of Thermal Analysis and Calorimetry 119(3): 1-8. crossref(new window)

Son, D.W., Kang, S. 2014. Combustion Properties of Woods for Indoor Use (I). Journal of the Korean Wood Science and Technology 42(6): 675-681. crossref(new window)

Son, D.W., Kang, M.R. 2015. Combustion Characteristics of Fire Retardants Treated Wood (I). Journal of the Korean wood science and technology 43(1): 96-103. crossref(new window)

Sjostrom., E. 1993. Wood chemistry. Fundamentals and Applications. Second edition ed. San Diego: Academic press.

The Information of National timber industry, KFS-2012 trends in May, Korea Forest Service (2012).

White, R.H., Dietenberger, M.A. 2010. Fire safety of wood construction. In: Wood handbook-Wood as an engineering material, Centennial Edition. U.S. Department of Agriculture, Forest Service, Forest Products Laboratory.

White, R.H., Dietenberger, M.A. 2013. Fire safety of wood construction. General Technical Report FRL-GTR-190. Chapter 18.

Yang, H., Yan, R., Chen, H., Yang, H.S. 2006. Thermal properties of bio-flour-filed polyolefin composites with different compatibilizing agent type and content. Thermochimica Acta 451(1-2): 181-188. crossref(new window)

Yang, J., Roy, C. 1999. Using DTA to quantitatively determine enthalpy change over a wide temperature range by the "mass-difference baseline method". Thermochimica Acta 333(2-3): 131-140. crossref(new window)