International Journal of Construction Engineering and Planning

Open Access  Subscription or Fee Access

In this experimental investigation the required numbers of test bricks were moulded for the various percentage proportionate of laterite soil, such as, 91%, 90%, 89%, and 88%, stabilized with various percentage of cement stabilizer viz 4, 5, 6 and 7%, respectively, along with 5% addition of sand constantly; compacted with a hydraulic press paver block and brick making machine. Based on the obtained results laterite soil bricks can be used as a substitute to conventional burnt clay bricks.

A.E. Ramaji. A review on the soil stabilization using low-cost methods, J Appl Sci Res. 2012; 8: 2193–6p.

M. Anjan Kumar, P. Raju. Use of cement stabilized pavement construction, Indian J Eng Mater Sci. 2009; 16: 269–76p.

H.H. Assal. Influence of fine sand and port land cement on the properties of fired and water cured lime-rich clay bricks, Indian J Eng Mater Sci. 1999; 6: 219–24p.

Chandrasekaran, R. Malthy. Use of color adsorbed flyash in brick manufacture, Indian J Chem Technol. 2012; 19: 266–70p.

V.K. Dakwale, R.V. Kalegaonkor. Development of sustainable construction material using construction and demolition waste, Indian J Eng Mater Sci. 2014; 21: 451–7p.

IS:1077-1992, Common burnt clay building bricks, (BIS, New Delhi).

IS:3495-1992, Methods of tests of burnt building bricks-part 1: Determination of compressive strength (BIS, New Delhi).

IS:3495-1992, Methods of tests of burnt building bricks-Part 2: Determination of water absorption (BIS, New Delhi).

IS:8112-1989, 43-Grade ordinary Portland cement, (BIS, New Delhi).

K.S. Jagadish. Alternative Building Materials Technology. India: New Age International (P) Ltd Publication; 2008.

A. Jamal, S. Siddarath. Value added constructional bricks from over burden of open cast coal mines, J Sci Ind Res. 2008; 67: 445–50p.

K. Kabiraj, U.K. Mandal. Experimental investigation and feasibility study on stabilized compacted earth block using local resources, Int J Civil Struct Eng. 2012; 2: 838–50p.

M.O. Amin. Effect of gypsum stabilization on mechanical properties of compressed earth blocks, J Eng Sci. 2013; 20: 87–93p.

S.K. Malhotra, S.K. Tehri. Building materials from blast furnace slag-Some new prospects, Indian J Eng Mater Sci. 1955; 2: 80–2p.

L.S. Manjunatha, B. Sunil. Stabilization/solidification of iron ore mine tailings using cement, lime and fly ash, Int J Res Eng Technol. 2013; 2(12): 625–35p.

Martinez-Gonzalez, H. Jimenez-Islas H. Experimental study of firing of red clay bricks using liquefied petroleum gas, J Sci Ind Res. 2014; 73: 661–6p.

H.B. Nagaraj, et al. Role of lime with cement in long-term strength of compressed stabilized earth blocks, Int J Sustain Built Environ. 2013; 3: 54–6p.

N.U. Kockal. Behaviour of mortars produced with construction wastes exposed to different treatments, Indian J Eng Mater Sci. 2015; 22: 203–14p.

R. Pankaj, et al. Stabilisation of black cotton soil using admixtures, Int J Eng Innov Technol, 2012; 1(5): 1–3p.

S. Dhadse, P. Kumari, L.J. Bhagia. Flyash characterization, Utilization and Government initiatives in India – A review, J Sci Ind Res. 2008; 67: 11–8p.

M.V. Sravan, H.B. Nagaraj. Effectiveness of lime as a stabilizer along with cement in CSEBs, In: 4th Young Geotechnical Engineers Conference. Alexandria, Egypt, 2013, 51–4p.

A.R. Veena, P. Siva Kumar, E. Sakaria. Experimental investigation on cement stabilized soil blocks, Int J Struct Civil Eng. 2014; 3(1): 43–53p.