SOĞUK BAĞLAMA VE SİNTERLEME YÖNTEMİ İLE ÜRETİLMİŞ HAFİF YAPAY AGREGALARIN FİZİKSEL VE MEKANİK ÖZELLİKLERİNİN KARŞILAŞTIRILMASI
Year 2021,
Volume: 8 Issue: 15, 560 - 570, 31.12.2021
Nihat Atmaca
,
Mais Ibrahim
,
Adem Atmaca
Abstract
Beton içerisinde en yüksek hacme sahip olarak yer alan agregaların yapay olarak üretimi son yıllarda çok büyük bir önem kazanmıştır. Bunun başlıca sebebi zararlı çevresel etkileri azaltmaktır. Ayrıca betonun bazı önemli özelliklerini iyileştirmek için de yapay agregalardan faydalanılmaya çalışılmaktadır. Bu çalışmada soğuk bağlama ve sinterleme yöntemi ile üretilmiş iki tür yapay agreganın fiziksel ve mekanik özellikleri kıyaslanmıştır. Bu amaçla farklı oranlarda uçucu kül kullanılarak pelletlenmiş ve farklı sıcaklıklarda sinterlenmiş yapay agregalar üretilmiştir. Üretilen yapay agregaların fiziksel ve mekanik özelliklerini araştırmak için kuru yoğunluk, özgül yoğunluk, su emme ve ezilme mukavemeti deneyleri yapılmıştır. Sonuçlar sinterlenmiş uçucu küllü yapay agregaların yoğunluk ve özgül yoğunluk değerlerinin artan eğilimde ancak su emme değerlerinin azalan eğilimde olduğunu göstermiştir. Ayrıca en yüksek ezilme dayanımı 900 oC’de sinterlenmiş numunelerde gözlenmiştir.
Supporting Institution
GAZİANTEP ÜNİVERSİTESİ
References
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Ash Aggregate as Substitute of Natural Fine Aggregate. IOP Conf. Ser. Mater. Sci. Eng. 2020;970.
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24/25 October 2019; Vol 3, p:1341-1347.
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ash aggregates. Waste Management 2006; 26-8: 846-852.
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- [5] N. U. Kockal, T. Ozturan. Effects of lightweight fly ash aggregate properties on the behavior of lightweight concretes. Journal of Hazardous Materials 2010; 179: 954-965.
- [6] Ul Rehman M, Rashid K, Ul Haq E, Hussain M, Shehzad N. Physico-mechanical performance and
durability of artificial lightweight aggregates synthesized by cementing and geopolymerization.
Constr Build Mater 2020; 232: 117290.
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research results. Resour Conserv Recycl 2000; 30: 59–77.
- [8] Manikandan R, Ramamurthy K. Effect of curing method on characteristics of cold bonded fly ash
aggregates. Cem Concr Compos 2008; 30: 848–53.
- [9] Terzić A, Pezo L, Mitić V, Radojević Z. Artificial fly ash based aggregates properties influence on
lightweight concrete performances. Ceram Int 2015; 41: 2714–26.
- [10] Liu M, Wang C, Bai Y, Xu G. Effects of sintering temperature on the characteristics of lightweight aggregate made from sewage sludge and river sediment. J Alloys Compd 2018; 748: 522–7.
- [11] Cheeseman CR, Makinde A, Bethanis S. Properties of lightweight aggregate produced by rapid
sintering of incinerator bottom ash. Resour Conserv Recycl 2005; 43: 147–62.
- [12] Nadesan MS, Dinakar P. Influence of type of binder on high-performance sintered fly ash
lightweight aggregate concrete. Constr Build Mater 2018; 176: 665–75.
- [13] Colangelo F, Messina F, Cioffi R. Recycling of MSWI fly ash by means of cementitious double
step cold bonding pelletization: Technological assessment for the production of lightweight
artificial aggregates. J Hazard Mater 2015; 299: 181–91.
- [14] Reddy DMVS, Nataraja DMC, K.Sindhu, V.Harani, K.Madhuralalasa. Performance of Light
Weight Concrete using Fly Ash Pellets as Coarse Aggregate Replacement. Int J Eng Res Technol
2016; 9: 95–104.
COMPARISON OF PHYSICAL AND MECHANICAL PROPERTIES OF COLD BONDED AND SINTERED LIGHTWEIGHT ARTIFICIAL AGGREGATES
Year 2021,
Volume: 8 Issue: 15, 560 - 570, 31.12.2021
Nihat Atmaca
,
Mais Ibrahim
,
Adem Atmaca
Abstract
Artificial aggregate production which has the highest volume ingredient in concrete has gained great importance in recent years. The fundemental cause for this is to reduce harmful environmental impacts. In addition, artificial aggregates are tried to be used to improve some important features of concrete. In the present study, the physical and mechanical properties of two types of artificial aggregates produced by cold bonding and sintering methods were compared. For this purpose, artificial aggregates pelletized and sintered at different temperatures were produced by using fly ash at different percentages. Dry density, specific density, water absorption and crushing strength tests were carried out to investigate the physical and mechanical properties of the produced artificial aggregates. The results showed that the bulk density and density values of sintered Fly ash artificial aggregates have a trend of rising but the water absorption values have a decreasing trend. Moreover the highest crushed strength value was observed in samples sintered at 900 oC.
References
- [1] Basa B, Pradhan N, Priyadarshini Parhi L. Mechanical Properties of Concrete with Sintered Fly
Ash Aggregate as Substitute of Natural Fine Aggregate. IOP Conf. Ser. Mater. Sci. Eng. 2020;970.
- [2] Atmaca Nihat. Cold-Bonding Method in Artifical Aggregate Production. UEMK conference,
24/25 October 2019; Vol 3, p:1341-1347.
- [3] Harikrishnan, K.I. and Ramamurthy, K. Influence of pelletization process on the properties of fly
ash aggregates. Waste Management 2006; 26-8: 846-852.
- [4] R. Cioffi, F. Colangelo, F. Montagnaro, L. Santoro. Manufacture of artificial aggregate using MSWI bottom ash. Waste Management 2011; 31: 281-288.
- [5] N. U. Kockal, T. Ozturan. Effects of lightweight fly ash aggregate properties on the behavior of lightweight concretes. Journal of Hazardous Materials 2010; 179: 954-965.
- [6] Ul Rehman M, Rashid K, Ul Haq E, Hussain M, Shehzad N. Physico-mechanical performance and
durability of artificial lightweight aggregates synthesized by cementing and geopolymerization.
Constr Build Mater 2020; 232: 117290.
- [7] Baykal G, Döven AG. Utilization of fly ash by pelletization process; theory, application areas and
research results. Resour Conserv Recycl 2000; 30: 59–77.
- [8] Manikandan R, Ramamurthy K. Effect of curing method on characteristics of cold bonded fly ash
aggregates. Cem Concr Compos 2008; 30: 848–53.
- [9] Terzić A, Pezo L, Mitić V, Radojević Z. Artificial fly ash based aggregates properties influence on
lightweight concrete performances. Ceram Int 2015; 41: 2714–26.
- [10] Liu M, Wang C, Bai Y, Xu G. Effects of sintering temperature on the characteristics of lightweight aggregate made from sewage sludge and river sediment. J Alloys Compd 2018; 748: 522–7.
- [11] Cheeseman CR, Makinde A, Bethanis S. Properties of lightweight aggregate produced by rapid
sintering of incinerator bottom ash. Resour Conserv Recycl 2005; 43: 147–62.
- [12] Nadesan MS, Dinakar P. Influence of type of binder on high-performance sintered fly ash
lightweight aggregate concrete. Constr Build Mater 2018; 176: 665–75.
- [13] Colangelo F, Messina F, Cioffi R. Recycling of MSWI fly ash by means of cementitious double
step cold bonding pelletization: Technological assessment for the production of lightweight
artificial aggregates. J Hazard Mater 2015; 299: 181–91.
- [14] Reddy DMVS, Nataraja DMC, K.Sindhu, V.Harani, K.Madhuralalasa. Performance of Light
Weight Concrete using Fly Ash Pellets as Coarse Aggregate Replacement. Int J Eng Res Technol
2016; 9: 95–104.