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PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES

Yıl 2016, Cilt: 152 Sayı: 152, 197 - 202, 25.05.2016
https://doi.org/10.19111/bmre.74700

Öz

Buildings are large consumers of energy in all countries. In regions with harsh climatic conditions, a substantial share of energy goes to heat and cool buildings. This paper reports an investigation of the insulation materials made from mixing carpet wastes with a solution with added crude colemanite ore, one of boron minerals, and a solution with added colemanite wastes from a barrage. A new building insulation material was produced which is name, Halibor. Optimum mixing ratios were determined for mass production and the physical properties of the product were established. In addition, the material produced was compared with similar products used in buildings in terms of physical properties. As a result of the investigations, it was established that the product provides high heat and sound insulation and can be used easily in building and construction industry.

Kaynakça

  • Aspiras, F.F., Manalo, J.R.I., 1995. Utilization of textile waste cuttings as building material. Journal of Materials Processing Technology 48, 379–384.
  • Batar, T., Köksal, N. S., Yersel E., Ş., 2009. Waste boron doped waste paper and plaster perlite production and characterization of materials, Ecology, 18, 72, 45-53
  • Demir, I., Orhan, M., 2006. Building materials in the production of Boron waste assessment. 1st International Symposium on Boron Book. Ankara.
  • DIN 4112. 1960. Temporary structures, code of practise for design and construction, German National Standard. http://www.termo1numara.com
  • Eken, M., 2012. Use of waste materials in the Production of insulation material, Sütcü İmam University, Master’s Thesis, Department of Civil Engineering, Kahramanmaraş.
  • Erdoğan Y. 2007. Produced from acidic and basic Pumice Investigation of characteristics of Building Materials Engineering, Cukurova University, Institute of Science, PhD thesis, 301 p. Adana
  • Erdogan, Y., Yasar, E., 2005. Pumice briquette produced from Nevsehir in terms of the evaluation of the heat and sound conductivity, 19th International Mining Congress and Exhibition - IMCET2005, The Chamber of Mining Eng., İzmir.
  • Erdoğan Y., Yaşar E., 2012. Nevsehir pumice produced from acidic lightweight concrete examination of the sound insulation value. 8th International Symposium on Industrial Minerals, p. 89-97, Istanbul Keskin T. 2010. The current state of the building sector assessment report, Turkey’s national climate change action plan to develop the project report, Ministry of Energy and Natural Resources. Ankara
  • Fisher, A.K., Bullen, F., Beal, D., 2001. The durability of cellulose fiber reinforced concrete pipes in sewage applications. Cement and Concrete Research, 31, 543–553.
  • Kozak, M., 2010. Investigation of The Usage of Textile Waste as Construction Materials. Electronic Journal of Construction Technologies, 2010, 6(1)
  • -70.
  • Kriker, A., Debicki, G., Bali, A., Khenfer, M.M., Chabannet, M., 2004. Mechanical properties of date palm fibers and concrete reinforced with date palm fibers in hot-dry climate. Cement and Concrete Composites, 27, 554–564.
  • Meyer, C., Shimanovich, S., Vilkner, G., 2002. Precast concrete wall panels with glass concrete. Final Report for The New York State Energy Research and Development Authority (NYSERDA), Albany, NY.
  • Olivares-Marin, M., Maroto-Valer, M.M., 2011. Preparation of a highly microporous carbon from a carpet material and its application as CO2 sorbent , Fuel Processing Technology, 92, 322–329.
  • Perry, B., 2003. Reinforcing external pavements with both large and small synthetic fibers. Concrete, 37 (8), 46–47.
  • Schmidt, H., Cieslak, M., 2007. Concrete with carpet recyclates: Suitability assessment by surface energy evaluation, Waste Management, 28, 1182–1187.
  • TS 825, 2011. Thermal insulation requirements for buildings.
  • Turkish Standards Institution. Ankara.
  • TS En ISO 10140-3, 2011. Acoustics - Laboratory measurement of sound insulation of building elements - Part 3: Measurement of impact sound insulation, Turkish Standards Institution. Ankara.
  • Wong, Ch.M., 2004. Use of short fibers in structural concrete to enhance mechanical properties. A Dissertation. University of Southern Queensland.
  • Yaşar E., Erdoğan Y., Kilic A., 2004. Effect of limestone aggregate type and water-cement ratio on concrete strength, Material Letters, 58 (5), 772-777.
  • Yilmaz A., 2004. Energy Saving Boron and Perlite, Eti Mine Works General Directorate, Ankara
Yıl 2016, Cilt: 152 Sayı: 152, 197 - 202, 25.05.2016
https://doi.org/10.19111/bmre.74700

Öz


Kaynakça

  • Aspiras, F.F., Manalo, J.R.I., 1995. Utilization of textile waste cuttings as building material. Journal of Materials Processing Technology 48, 379–384.
  • Batar, T., Köksal, N. S., Yersel E., Ş., 2009. Waste boron doped waste paper and plaster perlite production and characterization of materials, Ecology, 18, 72, 45-53
  • Demir, I., Orhan, M., 2006. Building materials in the production of Boron waste assessment. 1st International Symposium on Boron Book. Ankara.
  • DIN 4112. 1960. Temporary structures, code of practise for design and construction, German National Standard. http://www.termo1numara.com
  • Eken, M., 2012. Use of waste materials in the Production of insulation material, Sütcü İmam University, Master’s Thesis, Department of Civil Engineering, Kahramanmaraş.
  • Erdoğan Y. 2007. Produced from acidic and basic Pumice Investigation of characteristics of Building Materials Engineering, Cukurova University, Institute of Science, PhD thesis, 301 p. Adana
  • Erdogan, Y., Yasar, E., 2005. Pumice briquette produced from Nevsehir in terms of the evaluation of the heat and sound conductivity, 19th International Mining Congress and Exhibition - IMCET2005, The Chamber of Mining Eng., İzmir.
  • Erdoğan Y., Yaşar E., 2012. Nevsehir pumice produced from acidic lightweight concrete examination of the sound insulation value. 8th International Symposium on Industrial Minerals, p. 89-97, Istanbul Keskin T. 2010. The current state of the building sector assessment report, Turkey’s national climate change action plan to develop the project report, Ministry of Energy and Natural Resources. Ankara
  • Fisher, A.K., Bullen, F., Beal, D., 2001. The durability of cellulose fiber reinforced concrete pipes in sewage applications. Cement and Concrete Research, 31, 543–553.
  • Kozak, M., 2010. Investigation of The Usage of Textile Waste as Construction Materials. Electronic Journal of Construction Technologies, 2010, 6(1)
  • -70.
  • Kriker, A., Debicki, G., Bali, A., Khenfer, M.M., Chabannet, M., 2004. Mechanical properties of date palm fibers and concrete reinforced with date palm fibers in hot-dry climate. Cement and Concrete Composites, 27, 554–564.
  • Meyer, C., Shimanovich, S., Vilkner, G., 2002. Precast concrete wall panels with glass concrete. Final Report for The New York State Energy Research and Development Authority (NYSERDA), Albany, NY.
  • Olivares-Marin, M., Maroto-Valer, M.M., 2011. Preparation of a highly microporous carbon from a carpet material and its application as CO2 sorbent , Fuel Processing Technology, 92, 322–329.
  • Perry, B., 2003. Reinforcing external pavements with both large and small synthetic fibers. Concrete, 37 (8), 46–47.
  • Schmidt, H., Cieslak, M., 2007. Concrete with carpet recyclates: Suitability assessment by surface energy evaluation, Waste Management, 28, 1182–1187.
  • TS 825, 2011. Thermal insulation requirements for buildings.
  • Turkish Standards Institution. Ankara.
  • TS En ISO 10140-3, 2011. Acoustics - Laboratory measurement of sound insulation of building elements - Part 3: Measurement of impact sound insulation, Turkish Standards Institution. Ankara.
  • Wong, Ch.M., 2004. Use of short fibers in structural concrete to enhance mechanical properties. A Dissertation. University of Southern Queensland.
  • Yaşar E., Erdoğan Y., Kilic A., 2004. Effect of limestone aggregate type and water-cement ratio on concrete strength, Material Letters, 58 (5), 772-777.
  • Yilmaz A., 2004. Energy Saving Boron and Perlite, Eti Mine Works General Directorate, Ankara
Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Yasin Erdoğan Bu kişi benim

Yayımlanma Tarihi 25 Mayıs 2016
Yayımlandığı Sayı Yıl 2016 Cilt: 152 Sayı: 152

Kaynak Göster

APA Erdoğan, Y. (2016). PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES. Bulletin of the Mineral Research and Exploration, 152(152), 197-202. https://doi.org/10.19111/bmre.74700
AMA Erdoğan Y. PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES. Bull.Min.Res.Exp. Mayıs 2016;152(152):197-202. doi:10.19111/bmre.74700
Chicago Erdoğan, Yasin. “PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES”. Bulletin of the Mineral Research and Exploration 152, sy. 152 (Mayıs 2016): 197-202. https://doi.org/10.19111/bmre.74700.
EndNote Erdoğan Y (01 Mayıs 2016) PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES. Bulletin of the Mineral Research and Exploration 152 152 197–202.
IEEE Y. Erdoğan, “PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES”, Bull.Min.Res.Exp., c. 152, sy. 152, ss. 197–202, 2016, doi: 10.19111/bmre.74700.
ISNAD Erdoğan, Yasin. “PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES”. Bulletin of the Mineral Research and Exploration 152/152 (Mayıs 2016), 197-202. https://doi.org/10.19111/bmre.74700.
JAMA Erdoğan Y. PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES. Bull.Min.Res.Exp. 2016;152:197–202.
MLA Erdoğan, Yasin. “PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES”. Bulletin of the Mineral Research and Exploration, c. 152, sy. 152, 2016, ss. 197-02, doi:10.19111/bmre.74700.
Vancouver Erdoğan Y. PRODUCTION OF AN INSULATION MATERIAL FROM CARPET AND BORON WASTES. Bull.Min.Res.Exp. 2016;152(152):197-202.

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