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Academic Studies On The Use Of Waste In Production Of Geopolymer Brick

Yıl 2022, Cilt: 5 Sayı: 2, 171 - 176, 31.12.2022
https://doi.org/10.51764/smutgd.1205987

Öz

Recently, the studies on sustainable and energy-saving materials have started to increase in the field of building materials. Brick, one of the most widely used building materials in construction, is one of the materials that need to be studied. Improving the characteristics of brick by using waste materials has importance in terms of waste disposal. In this study, the aim is to analyze the academic studies between 2017-2022 on geopolymer brick. In this context, the changes in the physical and mechanical characteristics of bricks produced using waste materials are intended to be analyzed. In the studies, it has been determined that industrial waste has a positive impact on geopolymer brick production. Also, it has been understood that the use of waste in geopolymer brick production in certain proportions will not cause any problem.

Kaynakça

  • Rahman, M. E., Ong, P. J., Nabinejad, O., Islam, S., Khandoker, N. A. N., Pakrashi, V., Shorowordi, K. M., 2018, Utilization of blended waste materials in bricks, Technologies, 6(1), 20.
  • Houben, H. and Guillaud, H., 1994, Earth construction: A Comprehensive Guide, London.
  • Niroumand, H., Zain, M.F.M., Alhosseini, S.N., 2013, The influence of nano-clays on compressive strength of earth bricks as sustainable materials. Procedia Social and Behavioral Sciences, (89), 862– 865.
  • Shakir, A. A., Naganathan, S. K., Mustapha, K. N. B., 2013, Development of bricks from waste material: A review paper. Australian Journal of Basic and Applied Sciences, 7(8), 812-818.
  • Ahmad, M. and Rasid, K., 2022, Novel approach to synthesize clay-based geopolymer brick: Optimizing molding pressure and precursors’ proportioning. Construction and Building Materials, 322 (2022), 126472.
  • Turan, E., 2019, Bor Atığı Kil Pestillerinin Mühendislik Özellikleri Ve Yüksek Plastisiteli Kilin Stabilizasyonunda Kullanılabilirliği, Yüksek Lisans Tezi, Atatürk Üniversitesi Fen Bilimleri Enstitüsü.
  • Madani, H. Ramezanianpour, A.A., Shahbazinia, M., Ahmadi, E., 2020, Geopolymer bricks made from less active waste materials, Construction and Building Materials, 247 (2020), 118441.
  • Gencel, O., Sütçü, M., Erdoğmuş, E., Koc, V., Çay, V.V., Gök, M.S., 2013, Properties of bricks with waste ferrochromium slag and zeolite, Journal of Cleaner Production, 59 (2013), 111–119.
  • Ibrahim, W.M.W., Hussin, K., Abdullah B.M.M., 2015, A review of fy ash-based geopolymer lightweight bricks, Applied Mechanics and Materials, 452–456.
  • Horel, C., 2012, Sodyum Hidroksit ve Soydum Silikat ile Aktive Edilmiş Taban Külünün Çimentoya Etkisi ve Geopolimerik Tuğla Üretimi, Afyon Kocatepe Üniversitesi Malzeme Bilimi ve Mühendisliği Lisans Tezi, Afyon.
  • Zeybek, O., 2009, Uçucu Kül Esaslı Geopolimer Tuğla Üretimi, Yüksek Lisans, Tezi, Anadolu Üniversitesi Fen Bilimleri Enstitüsü.
  • Abbas, S., Saleem, M. A., Kazmi, S.M.S. ve Munir, M. J., (2017). Production of sustainable clay bricks using waste fly ash: mechanical and durability properties. Journal of Building Engineering, 14, 7-14.
  • Çimen, S., Çağlar, H., Çağlar, A., Can, Ö., 2020, Effect of Boron Wastes on the Engineering Properties of Perlite Based Brick. Turkish Journal of Nature and Science, 9(2), 50-56.
  • Kumarasamy, V., Sampath, R., Kandasamy, S., 2021, Experimental Study on Hardened Mechanical and Durability Properties of Industrial Ash Bricks. Iranian Journal of Science and Technology, Transactions of Civil Engineering, 1-8.
  • Prathyusha, P., Ramujee, K., 2020, The Development and Study of Fiber Reinforced Fly Ash Bricks. Advances in Civil Engineering, Conference, 177-187.
  • Waheed, A., Azam, R., Riaz, M.R., Zawam, M., 2022, Mechanical and durability properties of fy ash cement sand composite bricks: an alternative to conventional burnt clay bricks, Innovative Infrastructure Solutions, (2022), 7-24.
  • Çağlar, H., 2021, Investigation of the effect of fly ash and boron waste additive on brick structure material, Turkish Journal of Nature and Science, 10(1), 137-143.
  • Ranjitham, M., Vishvapriya, M., Pavya, K., 2021, Experimental Investigation on Geopolymer Bricks, Advances in Civil Engineering, Conference, 97-106.
  • Kang, X., Gan, Y., Chen, R., Zhang, C., 2021, Sustainable eco-friendly bricks from slate tailings through geopolymerization: synthesis and characterization analysis, Construction and Building Materials, 278, (2021), 122337.
  • Singh, B.K. and Sengupta, S., 2022, An overview of fly ash utilization in production of geopolymer bricks and various factors influencing its strength, Innovative Infrastructure Solutions, 7 (283), 1-13.
  • Madani, H. Ramezanianpour, A.A., Shahbazinia, M., Ahmadi, E., 2020, Geopolymer bricks made from less active waste materials, Construction and Building Materials, 247 (2020), 118441.
  • Amin, S.K., Sherbiny, AboEl–Magd, S.E.A., Belal, A., Abadir, M.F. (2017). Fabrication of geopolymer bricks using ceramic dust waste, Construction and Building Materials, 157 (2017), 610-620.

Geopolimer Tuğla Üretiminde Atık Kullanımı Üzerine Yapılan Akademik Çalışmalar

Yıl 2022, Cilt: 5 Sayı: 2, 171 - 176, 31.12.2022
https://doi.org/10.51764/smutgd.1205987

Öz

Son zamanlarda yapı malzemesi alanında, sürdürülebilir ve enerji tasarrufu sağlayan malzemeler üzerinde çalışmalar artmaya başlamıştır. İnşaat alanında en yaygın kullanılan yapı malzemelerinden biri olan tuğla, üzerinde çalışılması gereken malzemelerden biridir. Tuğlanın atık malzemeler kullanılarak özelliklerinin iyileştirilmesi atıkların bertaraf edilmesi açısından önem arz etmektedir. Bu çalışmada 2017-2022 yılları arasında geopolimer tuğla üzerine yapılan akademik çalışmaların irdelenmesi hedeflenmiştir. Bu bağlamda atık malzemeler kullanılarak üretilen tuğlaların fiziksel ve mekanik özelliklerindeki değişimin incelenmesi amaçlanmıştır. Yapılan çalışmalarda endüstriyel atıkların geopolimer tuğla üretiminde olumlu yönde etki ettiği tespit edilmiştir. Ayrıca atıkların geopolimer tuğla üretiminde belli oranlarda kullanımında herhangi bir sıkıntı olmadığı görülmüştür.

Kaynakça

  • Rahman, M. E., Ong, P. J., Nabinejad, O., Islam, S., Khandoker, N. A. N., Pakrashi, V., Shorowordi, K. M., 2018, Utilization of blended waste materials in bricks, Technologies, 6(1), 20.
  • Houben, H. and Guillaud, H., 1994, Earth construction: A Comprehensive Guide, London.
  • Niroumand, H., Zain, M.F.M., Alhosseini, S.N., 2013, The influence of nano-clays on compressive strength of earth bricks as sustainable materials. Procedia Social and Behavioral Sciences, (89), 862– 865.
  • Shakir, A. A., Naganathan, S. K., Mustapha, K. N. B., 2013, Development of bricks from waste material: A review paper. Australian Journal of Basic and Applied Sciences, 7(8), 812-818.
  • Ahmad, M. and Rasid, K., 2022, Novel approach to synthesize clay-based geopolymer brick: Optimizing molding pressure and precursors’ proportioning. Construction and Building Materials, 322 (2022), 126472.
  • Turan, E., 2019, Bor Atığı Kil Pestillerinin Mühendislik Özellikleri Ve Yüksek Plastisiteli Kilin Stabilizasyonunda Kullanılabilirliği, Yüksek Lisans Tezi, Atatürk Üniversitesi Fen Bilimleri Enstitüsü.
  • Madani, H. Ramezanianpour, A.A., Shahbazinia, M., Ahmadi, E., 2020, Geopolymer bricks made from less active waste materials, Construction and Building Materials, 247 (2020), 118441.
  • Gencel, O., Sütçü, M., Erdoğmuş, E., Koc, V., Çay, V.V., Gök, M.S., 2013, Properties of bricks with waste ferrochromium slag and zeolite, Journal of Cleaner Production, 59 (2013), 111–119.
  • Ibrahim, W.M.W., Hussin, K., Abdullah B.M.M., 2015, A review of fy ash-based geopolymer lightweight bricks, Applied Mechanics and Materials, 452–456.
  • Horel, C., 2012, Sodyum Hidroksit ve Soydum Silikat ile Aktive Edilmiş Taban Külünün Çimentoya Etkisi ve Geopolimerik Tuğla Üretimi, Afyon Kocatepe Üniversitesi Malzeme Bilimi ve Mühendisliği Lisans Tezi, Afyon.
  • Zeybek, O., 2009, Uçucu Kül Esaslı Geopolimer Tuğla Üretimi, Yüksek Lisans, Tezi, Anadolu Üniversitesi Fen Bilimleri Enstitüsü.
  • Abbas, S., Saleem, M. A., Kazmi, S.M.S. ve Munir, M. J., (2017). Production of sustainable clay bricks using waste fly ash: mechanical and durability properties. Journal of Building Engineering, 14, 7-14.
  • Çimen, S., Çağlar, H., Çağlar, A., Can, Ö., 2020, Effect of Boron Wastes on the Engineering Properties of Perlite Based Brick. Turkish Journal of Nature and Science, 9(2), 50-56.
  • Kumarasamy, V., Sampath, R., Kandasamy, S., 2021, Experimental Study on Hardened Mechanical and Durability Properties of Industrial Ash Bricks. Iranian Journal of Science and Technology, Transactions of Civil Engineering, 1-8.
  • Prathyusha, P., Ramujee, K., 2020, The Development and Study of Fiber Reinforced Fly Ash Bricks. Advances in Civil Engineering, Conference, 177-187.
  • Waheed, A., Azam, R., Riaz, M.R., Zawam, M., 2022, Mechanical and durability properties of fy ash cement sand composite bricks: an alternative to conventional burnt clay bricks, Innovative Infrastructure Solutions, (2022), 7-24.
  • Çağlar, H., 2021, Investigation of the effect of fly ash and boron waste additive on brick structure material, Turkish Journal of Nature and Science, 10(1), 137-143.
  • Ranjitham, M., Vishvapriya, M., Pavya, K., 2021, Experimental Investigation on Geopolymer Bricks, Advances in Civil Engineering, Conference, 97-106.
  • Kang, X., Gan, Y., Chen, R., Zhang, C., 2021, Sustainable eco-friendly bricks from slate tailings through geopolymerization: synthesis and characterization analysis, Construction and Building Materials, 278, (2021), 122337.
  • Singh, B.K. and Sengupta, S., 2022, An overview of fly ash utilization in production of geopolymer bricks and various factors influencing its strength, Innovative Infrastructure Solutions, 7 (283), 1-13.
  • Madani, H. Ramezanianpour, A.A., Shahbazinia, M., Ahmadi, E., 2020, Geopolymer bricks made from less active waste materials, Construction and Building Materials, 247 (2020), 118441.
  • Amin, S.K., Sherbiny, AboEl–Magd, S.E.A., Belal, A., Abadir, M.F. (2017). Fabrication of geopolymer bricks using ceramic dust waste, Construction and Building Materials, 157 (2017), 610-620.
Toplam 22 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mimarlık
Bölüm Makaleler
Yazarlar

Shahad Nadhım Abbas Al Amara 0000-0003-0553-1989

Arzu Çağlar 0000-0003-3928-8059

Yayımlanma Tarihi 31 Aralık 2022
Gönderilme Tarihi 16 Kasım 2022
Kabul Tarihi 21 Kasım 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 5 Sayı: 2

Kaynak Göster

APA Al Amara, S. N. A., & Çağlar, A. (2022). Geopolimer Tuğla Üretiminde Atık Kullanımı Üzerine Yapılan Akademik Çalışmalar. Sürdürülebilir Mühendislik Uygulamaları Ve Teknolojik Gelişmeler Dergisi, 5(2), 171-176. https://doi.org/10.51764/smutgd.1205987