대표어
한국학술지인용색인(NRF)
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In this study, we progressed flame retardant performance evaluation of wood-based materials, which were applied with carbon materials. We analyzed using a cone calorimeter according to ISO 5660-1 standard. Also, we proceed to the TGA experiment for confirming the thermal property of graphite and exfolied graphite nano pletelets(xGnP) applied as flame retardants. The value of the heat release rate of all specimen applied with xGnP were not exceed 200 kW/m² during the total testing time of 5 minutes corresponding to the flame-retardant Level 3. The value of the heat release rate of all specimen applied with xGnP were not exceed 200kW/m2 during the total testing time of 5 minutes corresponding to the flame-retardant Level 3. And in this experiment, the value of heat release rate of the specimen, which was applied to 4 wt% of xGnP, showed a relatively low value. The case of the value of total heat release, the value of the specimens, which were applied with xGnP, showed lower than the non-treated specimens’.
Also, it was confirmed that the slopes of the graph of the specimens were applied with xGnP, were lowering after 300 seconds. Through the results of TGA measurements, we confirmed the thermal properties of graphite and xGnP, and determined that the materials had the thermal stability through the results of the mass loss rate in fact less likely.
Based on these results we were confirmed xGnP was contributed to improved flame retardant performance of wood-based materials.권호기사
참고문헌 (25건) : 자료제공( 네이버학술정보 )
| 번호 | 참고문헌 | 국회도서관 소장유무 |
|---|---|---|
| 1 | Improvement on fire retardancy of wood flour/polypropylene composites using various fire retardants  |
미소장 |
| 2 | Synergistic effect of intumescent flame retardant and expandable graphite on mechanical and flame-retardant properties of wood flour-polypropylene composites |
미소장 |
| 3 | Modeling the thermal degradation of poly(methyl methacrylate)/carbon nanotube nanocomposites |
미소장 |
| 4 | Cha, J. M., Hyun, S. H., Kim, I. B., & Yoon, M. O. (2011). A Study on the Flame Retardant Performance of MDF Wood According to Flame Retardant Treatment Method. Journal of Korean Institute of Fire Science, 25(6). 146-155. | 미소장 |
| 5 | A Study on Combustion Characteristics of Fire Retardant Treated Pinus Densiflora and Pinus Koraiensis | 소장 |
| 6 | Czégény, Z., Jakab, E., & Blazsó, M. (2013). Pyrolysis of wood, cellulose, lignin–brominated epoxy oligomer flame retardant mixtures, Journal of Analytical and Applied Pyrolysis, 103, 52-59. | 미소장 |
| 7 | Dittrich, B., Wartig. K. A., Hofmann, D., Mlhaupt, R., & de Schartel, B. (2013). Flame retardancy through carbon nanomaterials: Carbon black, multiwall nanotubes, expanded graphite, multi-layer graphene and graphene in polypropylene. Polymer Degradation and Stability, 98(8), 1-11. | 미소장 |
| 8 | Eom, Y. G. (2003). Wood and engineered wood as the eco-friendly building materials. Air cleaning technology, 20(2): 26-49. | 미소장 |
| 9 | Haghighat, F., & Huang, H. (2003). Integrated IAQ model for prediction of VOC emissions from building material, Building and Environment, 38(8), 1007-1017. | 미소장 |
| 10 | Physical and mechanical properties of flame retardant urea formaldehyde medium density fiberboard |
미소장 |
| 11 | ISO 5660-1, 2002. Reaction to Fire Tests – Heat Release, Smoke Production and Mass Loss Rate – Part1 Heat Release Rate(Cone Calorimeter Method). | 미소장 |
| 12 | Evaluation of formaldehyde and VOCs emission factors from paints in a small chamber: The effects of preconditioning time and coating weight |
미소장 |
| 13 | Performance on Flame-Retardant Polyurethane Coatings for Wood and Wood-based Materials | 소장 |
| 14 | Thermal performance enhancement of mortar mixed with octadecane/xGnP SSPCM to save building energy consumption |
미소장 |
| 15 | Determination of formaldehyde and TVOC emission factor from wood-based composites by small chamber method |
미소장 |
| 16 | Kim, S., Kim, J. A., Kim, H. J., Lee, H. Y., & Yoon, D. W. (2006). The effects of edge sealing treatment applied to wood-based composites on formaldehyde emission by desiccator test method, Polymer Testing, 25(7), 904-911. | 미소장 |
| 17 | Kim, S., & Kim, H. J. (2005). Comparison of standard methods and gas chromatography method in determination of formaldehyde emission from MDF bonded with formaldehyde-based resins, Bioresource Technology, 96(13), 1457-1464. | 미소장 |
| 18 | Wood as a building material in the light of environmental assessment of full life cycle of four buildings |
미소장 |
| 19 | A Study on Combustion Characteristics of Fire Retardant Treated Wood | 소장 |
| 20 | Flame-retardant impregnants for woods based on alkaline silicates |
미소장 |
| 21 | Review on Enhancing Flame Retardant Performance of Building Materials using Carbon Nanomaterials | 소장 |
| 22 | Shin, B. W., & Chung, K. S. (2012). Combustion characteristics and thermal properties for wood flour-high density polyethylene composites, Journal of Korean Institute of Fire Science, 26(1), 89-95. | 미소장 |
| 23 | Decay Resistance and Anti-mold Efficacy of Wood Treated with Fire Reterdants | 소장 |
| 24 | Flame retardancy and thermal degradation behavior of red gum wood treated with hydrate magnesium chloride | 소장 |
| 25 | Using DTA to quantitatively determine enthalpy change over a wide temperature range by the “mass-difference baseline method” |
미소장 |
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