[[1] VILLAMIZAR, M. C. N. - ARAQUE, V. S. - REYES, C. A. R. - SILVA, R. S.: Effect of the addition of coal-ash and cassava peels on the engineering properties of compressed earth blocks. Construction and Building Materials, 36, 2012, pp. 276–286.10.1016/j.conbuildmat.2012.04.056]Search in Google Scholar
[[2] WALKER, P. J.: Strength, Durability and Shrinkage Characteristics of Cement Stabilised Soil Blocks. Cement and Concrete Composites, 17(4), 1995, pp. 301–310.10.1016/0958-9465(95)00019-9]Search in Google Scholar
[[3] MAINI, S.: Building with Earth in Auroville - A Case Study. Auroville Earth Institute. Retrieved August 1, 2018, from http://green.aurovilleportal.org/wdownloads/habitat/building_with_earth_in_av.pdf.]Search in Google Scholar
[[4] ADAM, E. A. - AGIB, A. R. A.: Compressed Stabilized Earth Block Manufacture in Sudan. Paris, France, 2001. Retrieved from http://unesdoc.unesco.org/images/0012/001282/128236e.pdf.]Search in Google Scholar
[[5] JAMES, J. - PANDIAN, P. K.: Soil Stabilization as an Avenue for Reuse of Solid Wastes: A Review. Acta Technica Napocensis: Civil Engineering and Architechture, 58(1), 2015, pp. 50–76.]Search in Google Scholar
[[6] JAMES, J. - PANDIAN, P. K.: Industrial Wastes as Auxiliary Additives to Cement/Lime Stabilization of Soils. Advances in Civil Engineering, 2016, (Article ID 1267391), pp. 1–17.10.1155/2016/1267391]Search in Google Scholar
[[7] GUETTALA, A. - HOUARI, H. - MEZGHICHE, B. - CHEBILI, R.: Durability of Lime Stabilized Earth Blocks. Courrier du Savoir, 2(1), 2002, pp. 61–66.]Search in Google Scholar
[[8] DEGIRMENCI, N. (2008). The using of waste phosphogypsum and natural gypsum in adobe stabilization. Construction and Building Materials, 22(6), pp. 1220–1224.10.1016/j.conbuildmat.2007.01.027]Search in Google Scholar
[[9] NAGARAJ, H. B. - SRAVAN, M. V. - ARUN, T. G. - JAGADISH, K. S.: Role of lime with cement in long-term strength of Compressed Stabilized Earth Blocks. International Journal of Sustainable Built Environment, 3(1), 2014, pp. 54–61.10.1016/j.ijsbe.2014.03.001]Search in Google Scholar
[[10] ALAVÉZ-RAMÍREZ, R. - MONTES-GARCÍA, P. - MARTÍNEZ-REYES, J. - ALTAMIRANOJUÁREZ, D. C. - GOCHI-PONCE, Y.: The use of sugarcane bagasse ash and lime to improve the durability and mechanical properties of compacted soil blocks. Construction and Building Materials, 34, 2012, pp. 296–305.10.1016/j.conbuildmat.2012.02.072]Search in Google Scholar
[[11] RAHEEM, A. A. - BELLO, O. A. - MAKINDE, O. A.: A Comparative Study of Cement and Lime Stabilized Lateritic Interlocking Blocks. Pacific Journal of Science and Technology, 11(2), 2010, pp. 27–34.]Search in Google Scholar
[[12] OBONYO, E. - EXELBIRT, J. - BASKARAN, M.: Durability of compressed earth bricks: Assessing erosion resistance using the modified spray testing. Sustainability, 2(12), 2010, pp. 3639–3649.10.3390/su2123639]Search in Google Scholar
[[13] ALHAJI, M. M. - ALHASSAN, M.: Effect of Reclaimed Asphalt Pavement Stabilization on the Microstructure and Strength of Black Cotton Soil. International Journal of Technology, 9(4), 2018, pp. 727–736.10.14716/ijtech.v9i4.435]Search in Google Scholar
[[14] ONYELOWE, K. C.: Cement Stabilized Akwuete Lateritic Soil and the Use of Bagasse Ash as Admixture. International Journal of Science and Engineering Investigations, 1(2), 2012, pp. 16–20.]Search in Google Scholar
[[15] BIS. IS 2720 Methods of Test for Soils: Part 5 Determination of Liquid and Plastic Limit, 1985, India.]Search in Google Scholar
[[16] BIS. IS 2720 Methods of Test for Soils: Part 6 Determination of Shrinkage Factors, 1972, India.]Search in Google Scholar
[[17] BIS. IS 2720 Methods of Test for Soils: Part 7 Determination of Water Content-Dry Density Relation Using Light Compaction, 1980, India.]Search in Google Scholar
[[18] BIS. IS 2720 Methods of Test for Soils: Part 10 - Determination of Unconfined Compressive Strength, 1991, India.]Search in Google Scholar
[[19] BIS. IS 1498 Classification and Identification of Soils for General Engineering Purposes, 1970, India.]Search in Google Scholar
[[20] ENTERPRISES, M. L.: Product Datasheet - Flyash. Retrieved July 20, 2017, from http://www.mlflyash.com/download/productdatasheetmlflyash.pdf.]Search in Google Scholar
[[21] BIS. IS 2720 Methods of Test For Soils: Part 1 - Preparation of Dry Soil Sample for Various Tests, 1983, India.]Search in Google Scholar
[[22] BIS. IS 1725: Specification for Soil Based Blocks Used in General Building Construction, 1982, India.]Search in Google Scholar
[[23] SHETTY, T. S. - RAO, K. B. - PAI, B. J.: A Feasibility Study on the Compressive Strength of Flyash and Lime Stabilized Laterite Soil Blocks. International Journal of Innovative Research in Science, Engineering and Technology, 5(9 (Spl)), 2016, pp. 73–80.]Search in Google Scholar
[[24] KHOBKLANG, P. - NOKKAEW, K. - GREEPALA, V.: Effect of Bagasse Ash on Water Absorption and Compressive Strength of Lateritic Soil Interlocking Block. In M. C. Limbachiya & H. Y. Kew (Eds.), Proceedings of the International Conference on Excellence in Concrete Construction Through Innovation, 9 - 10 September, 2008, pp. 181–185, Kingston upon Thames, United Kingdom.10.1201/9780203883440.ch26]Search in Google Scholar
[[25] REDDY, B. V. V. - HUBLI, S. R.: Properties of lime stabilised steam-cured blocks for masonry. Materials and Structures, 35(6), 2002, pp. 293–300.10.1007/BF02482135]Search in Google Scholar
[[26] JAMBOR, J.: Relation between phase composition, over-all porosity and strength of hardened lime-pozzolana pastes. Magazine of Concrete Research, 15(45), 1963, pp. 131–142.10.1680/macr.1963.15.45.131]Search in Google Scholar
[[27] BELL, F. G.: Lime stabilization of clay minerals and soils. Engineering Geology, 42(4), 1996, 223–237.10.1016/0013-7952(96)00028-2]Search in Google Scholar
[[28] KUMAR, S. - DUTTA, R. K. - MOHANTY, B.: Engineering Properties of Bentonite Stabilized With Lime and Phosphogypsum. Slovak Journal of Civil Engineering, 22(4), 2014, pp. 35–44.10.2478/sjce-2014-0021]Search in Google Scholar
[[29] JAMES, J. - PANDIAN, P. K. - DEEPIKA, K. - VENKATESH, J. M. - MANIKANDAN, V. -MANIKUMARAN, P.: Cement Stabilized Soil Blocks Admixed with Sugarcane Bagasse Ash. Journal of Engineering, 2016, pp. 1–9, Article ID 7940239.10.1155/2016/7940239]Search in Google Scholar
[[30] JAMES, J. - PANDIAN, P. K.: Valorisation of Sugarcane Bagasse Ash in Manufacture of Lime-Stabilized Blocks. Slovak Journal of Civil Engineering, 24(2), 2016, pp. 7–15.10.1515/sjce-2016-0007]Search in Google Scholar
[[31] RUSHAD, S. T. - KUMAR, A. - DUGGAL, S. K. - MEHTA, P. K.: Experimental Studies on Lime-Soil-Fly Ash Bricks. International Journal of Civil and Structural Engineering, 1(4), 2011, pp. 994–1002.]Search in Google Scholar
[[32] PATOWARY, B. N. - NATH, N. - HUSSAIN, I. - KAKOTI, H. J.: Study of Compressed Stabilised Earth Block. International Journal of Scientific and Research Publications, 5(6), 2015, pp. 1–4.]Search in Google Scholar
[[33] ALDAOOD, A. - BOUASKER, M. - AL-MUKHTAR, M.: Impact of wetting–drying cycles on the microstructure and mechanical properties of lime-stabilized gypseous soils. Engineering Geology, 174, 2014, pp. 11–21.10.1016/j.enggeo.2014.03.002]Search in Google Scholar
[[34] SABAT, A. K. - BOSE, B.: Strength, Swelling and Durability Characteristics of Fly-Lime Stabilized Expansive Soil-Ceramic Dust Mixes. International Journal of Earth Sciences and Engineering, 07(03), 2014, pp. 1210–1215.]Search in Google Scholar