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THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID

Year 2016, Volume: 6 Issue: 2, 87 - 92, 23.07.2016

Abstract

In this study, the effects of combustion properties on oriental beech (Fagus orientalis L.) wood species which treated with liquid nitrogen and impregnated with boric acid. The dipping method was used for the impregnation and liquid nitrogen process. The combustion test was performed according to the procedure defined in the ASTM-E 69 standards and during the test the mass reduction, temperature were determined for each 30 seconds. According to the test results, it was found that the samples treated with liquid nitrogen retention was increase. Moreover, sample treated with liquid nitrogen and impregnated with boric acid was more successfully to combustion retardant than samples only impregnated with boric acid

References

  • ASTM-E 69 (2007) Standard Test Methods for Combustible Properties of Treated Wood by the Fire Apparatus, ASTM Standards. USA.
  • ASTM-D 1413-76 (1976). Standard test method of testing wood preservatives by laboratory soil block cultures. Annual Book of ASTM Standards, USA.
  • Chen P.Y.S., Puttmann M.E., Williams L.H., Stoke D.D., (1997). Treatment of hardwood lumber with borate preservation, Forest Products Journal, 47(6), 63–68.
  • Drysdale, J.A. (1994). Boron treatments for the preservation of wood. A review of efficacy data for fungi and termites. Document of IRG/WP, The International Research Group on Wood Preservation (New Zealand
  • Kurt, Ş., Uysal, B. and Özcan, C, (2009). Thermal Conductivity of Oriental beech Impregnated with Fire Retardant, Journal of Coating Technology and Research. 6(4), 523-530.
  • Murphy, R.J. (1990). Historical perspective in Europa. Margeret Hamel (Ed.), Proceedings of the Uludağ, First International Conference on Wood Protection with Diffusible Preservatives. Tennessee.
  • Turkish Standard Institute (1976). TS 2471, Wood, Determination of Moisture Content for Physical and Mechanical Tests, TSE Standards, Turkey.
  • Turkish Standard Institute (1976). TS 2472, Wood - Determination of Density for Physical and Mechanical Tests, TSE Standards, Turkey.
  • Yalınkılıç M.K., Takahashi M., Imamura Y., Gezer E.D., Demirci Z., Ilhan R., (1999). Boron addition to non or low formaldehyde cross-linking reagents to enhance biological resistance and dimensional stability for wood. Holz als Roh-und Werkstoff. 57(5), 351–35.
  • Yapıcı. F.. Uysal. B.. Kurt. Ş.. Esen. R.. Özcan. C. (2011). Impacts of impregnation chemicals on finishing process and combustion properties of oriental beech (Fagus orientalis L.) wood”. BioResources. 6(4), 3933-3943.
Year 2016, Volume: 6 Issue: 2, 87 - 92, 23.07.2016

Abstract

References

  • ASTM-E 69 (2007) Standard Test Methods for Combustible Properties of Treated Wood by the Fire Apparatus, ASTM Standards. USA.
  • ASTM-D 1413-76 (1976). Standard test method of testing wood preservatives by laboratory soil block cultures. Annual Book of ASTM Standards, USA.
  • Chen P.Y.S., Puttmann M.E., Williams L.H., Stoke D.D., (1997). Treatment of hardwood lumber with borate preservation, Forest Products Journal, 47(6), 63–68.
  • Drysdale, J.A. (1994). Boron treatments for the preservation of wood. A review of efficacy data for fungi and termites. Document of IRG/WP, The International Research Group on Wood Preservation (New Zealand
  • Kurt, Ş., Uysal, B. and Özcan, C, (2009). Thermal Conductivity of Oriental beech Impregnated with Fire Retardant, Journal of Coating Technology and Research. 6(4), 523-530.
  • Murphy, R.J. (1990). Historical perspective in Europa. Margeret Hamel (Ed.), Proceedings of the Uludağ, First International Conference on Wood Protection with Diffusible Preservatives. Tennessee.
  • Turkish Standard Institute (1976). TS 2471, Wood, Determination of Moisture Content for Physical and Mechanical Tests, TSE Standards, Turkey.
  • Turkish Standard Institute (1976). TS 2472, Wood - Determination of Density for Physical and Mechanical Tests, TSE Standards, Turkey.
  • Yalınkılıç M.K., Takahashi M., Imamura Y., Gezer E.D., Demirci Z., Ilhan R., (1999). Boron addition to non or low formaldehyde cross-linking reagents to enhance biological resistance and dimensional stability for wood. Holz als Roh-und Werkstoff. 57(5), 351–35.
  • Yapıcı. F.. Uysal. B.. Kurt. Ş.. Esen. R.. Özcan. C. (2011). Impacts of impregnation chemicals on finishing process and combustion properties of oriental beech (Fagus orientalis L.) wood”. BioResources. 6(4), 3933-3943.
There are 10 citations in total.

Details

Other ID JA56BY65SM
Journal Section Articles
Authors

C. Özcan This is me

Ş. Kurt This is me

R. Esen This is me

C. Özcan

Publication Date July 23, 2016
Published in Issue Year 2016 Volume: 6 Issue: 2

Cite

APA Özcan, C., Kurt, Ş., Esen, R., Özcan, C. (2016). THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID. TOJSAT, 6(2), 87-92.
AMA Özcan C, Kurt Ş, Esen R, Özcan C. THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID. TOJSAT. July 2016;6(2):87-92.
Chicago Özcan, C., Ş. Kurt, R. Esen, and C. Özcan. “THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID”. TOJSAT 6, no. 2 (July 2016): 87-92.
EndNote Özcan C, Kurt Ş, Esen R, Özcan C (July 1, 2016) THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID. TOJSAT 6 2 87–92.
IEEE C. Özcan, Ş. Kurt, R. Esen, and C. Özcan, “THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID”, TOJSAT, vol. 6, no. 2, pp. 87–92, 2016.
ISNAD Özcan, C. et al. “THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID”. TOJSAT 6/2 (July 2016), 87-92.
JAMA Özcan C, Kurt Ş, Esen R, Özcan C. THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID. TOJSAT. 2016;6:87–92.
MLA Özcan, C. et al. “THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID”. TOJSAT, vol. 6, no. 2, 2016, pp. 87-92.
Vancouver Özcan C, Kurt Ş, Esen R, Özcan C. THE IMPROVE OF COMBUSTION PROPERTIES ON WOODEN MATERIAL BY USING LIQUED NITROGEN AND BORIC ACID. TOJSAT. 2016;6(2):87-92.