A Review of Distinct Aggregate Waste which can be Utilized in Conjunction with Natural Aggregates
Keywords:
Aggregate Waste, Concrete, Ceramic waste.Abstract
21st Century construction industry is at its peak (including dismantling concrete structures) he uses of waste materials (glass, plastic, slag, fly ash and so on) in concrete industrial is major due to its engineering, economic, eco-friendly and green paybacks. Thus, consumption of waste materials in concrete construction is very much useful to obtain the objective of the sustainability. The use of the waste in construction work reducing the dumping and disposal issue of the waste. As the natural sources of untouched aggregates are consuming with the time. The use of waste material will decrease the use of natural aggregates. As the construction and demolition waste has great part in the total waste produced. These wastes can be recycled and reused. The crushing of destructed concrete can be done at site thus decreasing transportation for their disposal and transportation of natural resources. In present study, ceramic tile waste has been used as construction waste. Tile waste is a major problem in large scale projects. Like other construction waste, tile waste is also an issue of disposal in India. Moving further, with concept of smart city, it is mandatory that nation find alternatives of waste materials instead of creating dump yards. A comparative study on different aggregate waste and their techniques has been complied in this paper. Conclusion and future scope of this technology has been outlined within finish of this paper
References
2. Alves AV, Vieira TF, Correia JR. Mechanical properties of structural concrete with fine recycled ceramic aggregates. Construction and Building Materials 2014; 64: 103-13.
3. Medina C, Sanchez MI, Frias M. Reuse of sanitary ceramic wastes as coarse aggregate in eco-efficient concretes. Cement and Concrete Composites 2012; 34: 48-54.
4. Binici H. Effect of crushed ceramic and basaltic pumice as fine aggregates on concrete mortars properties. Construction and Building Materials 2007; 21: 1191-7.
5. Correia JR, de Brito J, Pereira AS. Effects on concrete durability of using recycled ceramic aggregates. Material and Structure 2006; 39(2): 169-77.
6. Fatima E, Jhamb A, Kumar R. Ceramic dust as construction material in rigid pavement. American Journal of Civil Engineering and Architecture 2013; 1(5): 112-6.
7. LNEC E 373. Aggregates for mortars and concrete: characteristics and conformity checking (in Portuguese). Lisbon, Portugal. 1993.
8. Brito J. Recycled aggregates and their influence on concrete’s properties (in Portuguese), Public lecture within the full professorship in Civil Engineering preadmission examination, Lisbon, Portugal. 2005.
9. Pacheco Torgal F, Shahsavandi A, Jalali S. Mechanical properties and durability of concrete with partial replacement of Portland cement by ceramic wastes. WASTES: Solutions, Treatments and Opportunities, International Conference, 2011.
10. Veera RM. Investigations on stone dust and ceramic scrap as aggregate replacement in concrete. International Journal of Civil and Structural Engineering 2010; 1(3): 661-6.
11. Senthamarai RM, Manhoharan PD, Gobinath D. Concrete made from ceramic industry waste: durability properties. Construction and Building Materials 2011; 25: 2413-9.
12. Binici H. Effect of crushed ceramic and basaltic pumice as fine aggregates on concrete mortars properties. Construction and Building Materials 2007; 21: pp.1191-7.
