Experimental Study on Manufacturing Artificial Aggregate from Various Industrial Waste and Its Applications in Concrete – A Critical Review

  • Gunasekar S Assistant Professor, Department Of Civil Engineering, K.S.Rangasamy College of Technology, Tiruchengode – 637215,Tamil Nadu, India.
  • Santhosh L UG Scholar, Department Of Civil Engineering, K.S.Rangasamy College of Technology, Tiruchengode – 637215. Tamil Nadu, India.
  • Ragupathi P UG Scholar, Department Of Civil Engineering, K.S.Rangasamy College of Technology, Tiruchengode – 637215. Tamil Nadu, India.
Keywords: Industrial Waste management, artificial aggregate, Concrete, Aggregate Replacement, Strength Properties

Abstract

The aim of this paper is to examine the production of artificial aggregate and its potential applications in concrete. The waste materials from industrial are one of the concern issues in sustainable development. Recycle and reuse these waste materials is one of the strategies to produce the better sustainable system. One of the methods is by using the waste materials to produce artificial aggregate by palatalization. There are wide applications of artificial aggregate, for instance construction, agriculture, geotechnical fill, waste water, drainage and many more. Physical properties such as bulk density, specific gravity, unit weight, porosity and water absorption are important criteria. The performance of the artificial aggregate varies, depending on the application.

References

1. Erhan Güneyisi, Mehmet Gesoglu, Hussein Ghanim, Süleyman _Ipek, Ihsan Taha,(2016), “Influence of the artificial lightweight aggregate on fresh propertiesand compressive strength of the self-compacting mortars”, Construction and Building Materials, Vol: 116,2016, pp: 151–158.
2. Vit Cerny, Rostislav Drochytka, “Artificial Aggregate From Sintered Coal AshUmetni Agregat Iz Sintranega Pepela Premoga”,Materials and technology, MTAEC9, 50(5)749(2016).
3. D. Hardjito1, Antoni1, E. Suryawangi1 and Y. Takarendehang, “Development of Volcanic Mud-Based GeopolymerArtificial Aggregate”, Conference Paper · August 2013.
4. Francesco Colangeloa, Francesco Messinaa, Raffaele Cioffia, “Recycling of MSWI fly ash by means of cementitious double step coldbonding pelletization: Technological assessment for the production oflightweight artificial aggregates”, Journal of Hazardous Materials, Vol: 299, (2015), pp: 181–191.
5. WasanKhalil1,Hisham Ahmed1,andZainabHussein, “Behavior of high performance artificial lightweight aggregate concrete reinforced with hybrid fibers”, MATEC Web of Conferences · January 2018.
6. S Y Kwek and H Awang, “Artificial lightweight aggregate from palm oil fuel ash (POFA)and water treatment waste”, 14th International Conference on Concrete Engineering and Technology, IOP Conf. Series: Materials Science and Engineering 431 (2018) 082005.
7. Harilal B. and Job Thomas , “Concrete made using cold bonded artificial aggregate”, American Journal of Engineering Research (AJER) e-ISSN : 2320-0847 p-ISSN : 2320-0936 Volume-1 pp-20-25.
8. K.I. Harikrishnan, K. Ramamurthy, “Influence of pelletization process on the properties of fly ash aggregates”, Waste Management, Vol: 26 (2006), pp:846–852.
9. S. Kılınçarslan, “Investigation of Heavy Concretes Producedwith Heavy Artificial Aggregates”, Special issue of the International Conference on Computational and Experimental Science and Engineering (ICCESEN 2014).
10. G. De Casa, T. Mangialardi & L. Piga, “Production of artificial aggregates fromceramic processing of municipalincinerator fly ash”, International Journal of Environment and Waste Management · January 2004.
11. JerzyWitek, Bronisław Psiuk, Zdzisław Naziemiec and Robert Kusiorowski, “Obtaining an Artificial Aggregate fromCement-AsbestosWaste by the Melting Technique inan Arc-Resistance Furnace”, Fibers, 2019, Vol: 7, Issue :10.
12. Srinivasan.K, Mutharasi.M, Vaishnavi.R, Sajin Mohan, Logeswaran.V, “An Experimental Study on Manufacture of
13. Artificial Aggregates Incorporating Flyash, RiceHusk Ash and Iron Ore Dust”, International Journal of Science, Engineering and Technology Research (IJSETR), Volume 5, Issue 1, January 2016.
14. V. Strokova, I. Zhernovsky, Y. Ogurtsova, A. Maksakov, M. Kozhukhova,K.Sobolev, “Artificial aggregates based on granulated reactive silica powders”, Advanced Powder Technology · May 2014.
15. Mehmet Geso˘glu∗, Erhan Güneyisi, Swara Fuad Mahmood, Hatice Öznur Öz, Kasım Mermerdas, “Recycling ground granulated blast furnace slag as cold bonded artificial aggregatepartially used in self-compacting concrete”, Journal of Hazardous Materials, Vol: 235– 236, (2012), pp: 352– 358.
Published
2019-11-02
How to Cite
S, G., L, S., & P, R. (2019). Experimental Study on Manufacturing Artificial Aggregate from Various Industrial Waste and Its Applications in Concrete – A Critical Review. International Research Journal of Multidisciplinary Technovation, 1(6), 470-474. Retrieved from https://mapletreejournals.com/index.php/irjmt/article/view/320