Journal of Building Construction

Getting aggregate from naturally occurring sources is the simplest method. Natural sand is extracted from the river bed, and cutting and screening out of coarse aggregate increases the cost of conventional concrete. Excavating rocks from valleys, which typically has the worst effects on the environment, is also the most expensive option. Shortage will happen due to these persistent of normal materials. Project iron slag and Vault slag can be utilized in the development business as substitution of fine total and coarse total. Cast iron slag is the dust that is collected from the cast iron specimens following the molding process. Vault slag is by result of solid metal assembling unit. Project iron slag is substitute with fine total and dome slag is substitute with coarse total with ideal level of substitution to really look at the suitability of substantial strength, sturdiness, functionality and biological reachability. In this review, the previous work and trial work done by various people as demonstrated by their viewpoints is analyzed. To deduce in the review, from actual properties of solid metal slag that there are comparability between cast iron slag and fine total and actual properties of dome slag that there are likeness between vault slag and coarse total. The two materials are eco-accommodating structure material. The issue of the removal and support issue of land filling is decreased.

ChetanKhajuria,Rafat Siddique (2014) ‘Use of Iron Slag as Partial Replacement of Sand to Concrete’, International Journal of Science, Engineering and Technology Research (IJSETR), Volume 3, Issue 6, June 2014

D. Baricova , A. Pribulova , P. Demeter (2010) ‘Comparison of possibilities the blast furnace and cupola slag utilization by concrete production’, Archives Of Foundry Engineering Volume 10,pp. 15-18

Gaurav Desai, PremLohakare, AkshayBhavsar, AkashUgale, NayanBhavsar (2018) ‘Partial Replacement Of Fine Aggregate Using Steel Slag’, International Journal of Engineering Development and Research Volume 6, Issue 2

Joseph O. Afolayan and Stephan A. Alabi (2013) ‘Investigation on the Potentials of Cupola Furnace Slag in Concrete’, International Journal of Integrated Engineering, Vol. 5 No. 2 (2013) p. 59-62

Kr.Ramsundar, R.Jayanthi (2018) ‘Partial Replacement of Fine Aggregate with Iron Slag’, International Journal of Innovative Research in Science, Engineering and Technology Volume 7, Special Issue 5, April 2018

Mohammed Nadeem, Arun D. Pofale (2012) ‘Experimental investigation of using slag as an alternative to

normalaggregates (coarse and fine) in concrete’, International Journal Of

Civil And Structural Engineering Volume 3, No 1, 2012Mr.T.Yuvaraj, Dr.M.Palanivel,

Vigneswar.S, Bhoopathy.R, Gnanasekaran.V (2015) ‘Environmental Feasibility in Utilization of Foundry Solid Waste (Slag) for M20 Concrete Mix Proportions’, IOSR Journal of Environmental Science, Toxicology and Food Technology (IOSR-JESTFT) e-ISSN: 2319-2402,p- ISSN: 2319-

2399.Volume 9, Issue 1 Ver. I (Jan. 2015), PP 16-23

Patel Sanket , Megha Thomas (2018) ‘Experimental Study on Mechanical Properties of Hardened Concrete using Cupola Slag as Partial Replacement of Cement and Coarse Aggregate’, International Journal of Research Volume 05 Issue 12 April 2018

R. Balaraman and S. Anne Ligoria (2015) ‘Utilization of Cupola Slag in Concrete as Fine and Coarse Aggregate’, International Journal of Civil Engineering and Technology, 6(8), 2015, pp. 06-14