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SÜRDÜRÜLEBİLİR İNŞAAT SEKTÖRÜ İÇİN GERİ DÖNÜŞÜM BETON AGREGASI

Year 2023, Volume: 9 Issue: 1, 155 - 165, 30.06.2023
https://doi.org/10.34186/klujes.1295959

Abstract

Dünya nüfusunun artmasıyla beraber oluşturulacak yeni yerleşim yerlerinin oluşturulması inşaat sektörünün sürekli aktif olmasını sağlamaktadır. İnşaat sektöründe de en çok kullanılan yapı malzemelerinden biri agregadır. Agrega rezervlerinin kısıtlı kaynak olması sebebiyle bu malzemenin yerine geçebilecek yeni malzeme arayışları sürmektedir. Özellikle yapı ömrünü tamamlamış ve/veya doğal afetler sonucu gibi sebeplerle oluşan inşaat yıkıntı atıklarının tekrar agrega olarak kullanılması son yıllarda çalışılan konulardandır. Bu çalışma kapsamında, doğal agrega yerine inşaat yıkıntı atıklarından elde edilen geri dönüşüm beton agregaların kullanımı ile ilgili çalışmalar incelenmiş olup, bu inşaat malzemenin sürdürülebilir kaynak olmasının önemi belirtilmiştir.

References

  • ERMCO, European Ready Mixed Concrete Organization Association, Brussels, Belgium, (2016).
  • Türkiye Hazır Beton Sektörü İstatistikleri, 2022 - www.thbb.org
  • Agrega Üreticileri Birliği, 2022- www.agub.org.tr
  • Rao, A., Kumar, N., Jha ve Misra, S., (2007). Use of Aggregates from Recycled Construction and Demolition waste in Concrete, Conservation and Recycling, 50, 71-81.
  • Çevre Şehircilik Bakanlığı, Çevre Yönetimi Genel Müdürlüğü, Atık Yönetimi Başkanlığı, 2012, https://cygm.csb.gov.tr/atik-yonetimi-i-450
  • RILEM TC 121-DRG, (1994). Specifications for Concrete with Recycled Aggregates, Materials and Structures, 27, 557-559.
  • Oikonomou, N.D., (2005). Recycled Concrete Aggregates, Cement and Concrete Composites, 27, 315–318.
  • Eguchi, K., Teranishi K., Nakagome, A., Kishimoto, H., Shinozaki, K., Narikawa, M., (2007). Application of Recycled Coarse Aggregate by Mixture to Concrete Construction, Construction and Building Materials, pp 1542-1551.
  • Hafriyat Toprağı, İnşaat ve Yıkıntı Atıklarının Kontrolü Yönetmeliği, 2004.
  • Fonteboa, B.G. ve Abella, F.M., (2008). “Concretes with Aggregates from Demolition Waste and Silica Fume/Materials and Mechanical Properties”, Building and Environment, 43:429-437.
  • Topçu, İ.B. ve Şengel, S., (2003). Properties of Concretes Produced with Waste Concrete Aggregate, Cement and Concrete Research, 34, 1307-1312.
  • Poon, C.S., (2006). Management of Construction and Demolition Waste, Waste Management, 27, 159-160.
  • Rakshvir, M. ve Barai, S.V., (2006). Studies on Recycled Aggregates-Based Concrete, Waste Manage Res., 24, 225-233.
  • Jeon H.Y., Cho S.H., Mok M.S., Park Y.M., Jang J.W., Polymer Testing, Assessment of Chemical Resistance of Textile Geogrids Manufactured with PET High-Performance Yarn, 2005.
  • Chini, A.R., Kuo, S.S., Armaghani, J.M. ve Duxbury, J.P., (2001). “Test of Recycled Concrete Aggregate in Accelerated Test Track”, Journal of Transportation Engineering, 127:486-492.
  • Nataatmadja, A., ve Tan, Y.L., (2001). “Resilient Response of Recycled Concrete Road Aggregates”, Journal of Transportation Engineering, 127:450-453.
  • Mulder, E., De Jong, T.P.R. ve Feenstra, L., (2007). “Closed Cycle Construction: An Integrated Process fort he Seperation and Reuse of C&D Waste”, Waste Management, 27:1408-1415.
  • Corinaldesi, V., (2010). “Mechanical and Elastic Behaviour of Concretes Made of Recycled-Concrete Coarse Aggregates”, Construction and Building Materials, 24:1616-1620.
  • Kartam, N., Al-Mutairi, N., Al-Ghusain, I. ve Al-Humoud, J., (2004). “Environmental Management of Construction and Demolition Waste in Kuwait”, Waste Management, 24:1049-1059.
  • Arıoğlu, E., Köylüoğlu, Ö.S. ve Akıllıoğlu, E., (1996). “Dünyadaki Geri Kazanılmış Agrega Üretim Politikalarının Gözden Geçirilmesi ve Ülkemiz Açısından İrdelenmesi”, I. Ulusal Kırmataş Sempozyumu, 7-8 Ekim 1996, İstanbul.
  • Kianimehr M., Shourijeh P.T., Binesh S.M., Mohammadinia A., Arulrajah A., (2019). “Utilization of Recycled Concrete Aggregates for Light-Stabilization of Clay Soils”, Construction and Building Materials, 227 (2019), 116792.
  • Bordoloi S., Afolayan O. D., Ng C.W.W., (2022). “Feasibility of Construction Demolition Waste for Unexplored Geotechnical and Geo-Environmental Applications- A Review”, Construction and Building Materials, 356 (2022), 129230.
  • Lennon, M., 2005. Recycling Construction and Demolition Wastes A Guide for Architects and Contractors, The Institution Recycling Network.
  • Demir, İ., 2009. İnşaat Yıkıntı Atıklarının Beton Üretiminde Kullanımı ve Beton Özelliklerine Etkisi, AKÜ Fen Bilimleri Dergisi, 02, 105-114.

RECYCLED CONCRETE AGGREGATE FOR SUSTAINABLE CONSTRUCTION MARKET

Year 2023, Volume: 9 Issue: 1, 155 - 165, 30.06.2023
https://doi.org/10.34186/klujes.1295959

Abstract

The creation of new settlements to be created with the increase population in the world ensures construction sector is constantly active. Aggregate is one of the most used building materials in the construction industry. Due to the limited resource of aggregate reserves, the search for new materials to replace this material continues. The reuse of construction debris, which has completed its life and/or due to reasons such as natural disasters, as aggregate is one of the subjects studied in recent years. Within the scope of this study, studies on the use of recycled concrete aggregates obtained from construction debris wastes instead of natural aggregates were examined and the importance of this construction material being a sustainable resource was stated.

References

  • ERMCO, European Ready Mixed Concrete Organization Association, Brussels, Belgium, (2016).
  • Türkiye Hazır Beton Sektörü İstatistikleri, 2022 - www.thbb.org
  • Agrega Üreticileri Birliği, 2022- www.agub.org.tr
  • Rao, A., Kumar, N., Jha ve Misra, S., (2007). Use of Aggregates from Recycled Construction and Demolition waste in Concrete, Conservation and Recycling, 50, 71-81.
  • Çevre Şehircilik Bakanlığı, Çevre Yönetimi Genel Müdürlüğü, Atık Yönetimi Başkanlığı, 2012, https://cygm.csb.gov.tr/atik-yonetimi-i-450
  • RILEM TC 121-DRG, (1994). Specifications for Concrete with Recycled Aggregates, Materials and Structures, 27, 557-559.
  • Oikonomou, N.D., (2005). Recycled Concrete Aggregates, Cement and Concrete Composites, 27, 315–318.
  • Eguchi, K., Teranishi K., Nakagome, A., Kishimoto, H., Shinozaki, K., Narikawa, M., (2007). Application of Recycled Coarse Aggregate by Mixture to Concrete Construction, Construction and Building Materials, pp 1542-1551.
  • Hafriyat Toprağı, İnşaat ve Yıkıntı Atıklarının Kontrolü Yönetmeliği, 2004.
  • Fonteboa, B.G. ve Abella, F.M., (2008). “Concretes with Aggregates from Demolition Waste and Silica Fume/Materials and Mechanical Properties”, Building and Environment, 43:429-437.
  • Topçu, İ.B. ve Şengel, S., (2003). Properties of Concretes Produced with Waste Concrete Aggregate, Cement and Concrete Research, 34, 1307-1312.
  • Poon, C.S., (2006). Management of Construction and Demolition Waste, Waste Management, 27, 159-160.
  • Rakshvir, M. ve Barai, S.V., (2006). Studies on Recycled Aggregates-Based Concrete, Waste Manage Res., 24, 225-233.
  • Jeon H.Y., Cho S.H., Mok M.S., Park Y.M., Jang J.W., Polymer Testing, Assessment of Chemical Resistance of Textile Geogrids Manufactured with PET High-Performance Yarn, 2005.
  • Chini, A.R., Kuo, S.S., Armaghani, J.M. ve Duxbury, J.P., (2001). “Test of Recycled Concrete Aggregate in Accelerated Test Track”, Journal of Transportation Engineering, 127:486-492.
  • Nataatmadja, A., ve Tan, Y.L., (2001). “Resilient Response of Recycled Concrete Road Aggregates”, Journal of Transportation Engineering, 127:450-453.
  • Mulder, E., De Jong, T.P.R. ve Feenstra, L., (2007). “Closed Cycle Construction: An Integrated Process fort he Seperation and Reuse of C&D Waste”, Waste Management, 27:1408-1415.
  • Corinaldesi, V., (2010). “Mechanical and Elastic Behaviour of Concretes Made of Recycled-Concrete Coarse Aggregates”, Construction and Building Materials, 24:1616-1620.
  • Kartam, N., Al-Mutairi, N., Al-Ghusain, I. ve Al-Humoud, J., (2004). “Environmental Management of Construction and Demolition Waste in Kuwait”, Waste Management, 24:1049-1059.
  • Arıoğlu, E., Köylüoğlu, Ö.S. ve Akıllıoğlu, E., (1996). “Dünyadaki Geri Kazanılmış Agrega Üretim Politikalarının Gözden Geçirilmesi ve Ülkemiz Açısından İrdelenmesi”, I. Ulusal Kırmataş Sempozyumu, 7-8 Ekim 1996, İstanbul.
  • Kianimehr M., Shourijeh P.T., Binesh S.M., Mohammadinia A., Arulrajah A., (2019). “Utilization of Recycled Concrete Aggregates for Light-Stabilization of Clay Soils”, Construction and Building Materials, 227 (2019), 116792.
  • Bordoloi S., Afolayan O. D., Ng C.W.W., (2022). “Feasibility of Construction Demolition Waste for Unexplored Geotechnical and Geo-Environmental Applications- A Review”, Construction and Building Materials, 356 (2022), 129230.
  • Lennon, M., 2005. Recycling Construction and Demolition Wastes A Guide for Architects and Contractors, The Institution Recycling Network.
  • Demir, İ., 2009. İnşaat Yıkıntı Atıklarının Beton Üretiminde Kullanımı ve Beton Özelliklerine Etkisi, AKÜ Fen Bilimleri Dergisi, 02, 105-114.
There are 24 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Issue
Authors

Onur Yavan 0000-0002-9615-253X

Prof. Dr. İlknur Bozbey 0000-0002-1580-8876

Publication Date June 30, 2023
Published in Issue Year 2023 Volume: 9 Issue: 1

Cite

APA Yavan, O., & Bozbey, P. D. İ. (2023). SÜRDÜRÜLEBİLİR İNŞAAT SEKTÖRÜ İÇİN GERİ DÖNÜŞÜM BETON AGREGASI. Kirklareli University Journal of Engineering and Science, 9(1), 155-165. https://doi.org/10.34186/klujes.1295959