Abstract
The mineralogy and chemistry of various lateritic soil samples were evaluated in this study. This was done with the aim of establishing the role of chemistry and mineralogy in the strength behaviour and durability of compressed earth bricks made from lateritic soils derived from different parent rocks. After establishing the geotechnical properties of the soils, which were found favourable, the soils were further subjected to X-ray diffraction and X-ray fluorescence analyses in order to identify the minerals and oxides present. The present study reveals the important role of silica and sesquioxides in the hardening of lateritic soil and the positive impact this hardening has on the strength and durability of compressed earth bricks. The study concludes that the mineralogy and chemistry of laterite, especially the presence of silica and sesquioxide, played a significant role in the cohesion and strength of bricks, giving rise to bricks with strength range of about 5.33–15.57 Mpa. Therefore, the produced bricks proved to be durable, withstanding unfavourable weather and climatic conditions over a period more than 18 months.
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Modified after, Oyelami and Van Rooy (2016b)
Modified after: Schelmann (1981)
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References
Adam E, Agib A (2001) Compressed stabilised earth block manufacture in Sudan. Graphoprint United Nations Educational, Scientific and Cultural Organization, Paris, p 101
Australia Standards, Walker P (2002) HB 195 the Australian earth building handbook. Standards Australia International, Sydney
Aweto AO (1994) Soils of Ibadan region. In: Filani MO, Ikporukpo FO, Areola CO (eds) Ibadan region. Rex Charles Publication, Ibadan, pp 45–57
Bachar M, Azzouz L, Rabehi M, Mezghiche B (2014) Characterization of a stabilized earth concrete and the effect of incorporation of aggregates of cork on its thermo-mechanical properties: experimental study and modeling. Constr Build Mater. https://doi.org/10.1016/j.conbuildmat.2014.09.106
Caby R (1989) Precambrian terranes of Benin-Nigeria and northeast Brazil and the Late Proterozoic south Atlantic fit. Geol Soc Am Spec Pap 230:145–158. https://doi.org/10.1130/SPE230-p145
Centre for Development of Industry (CDI), African Regional Organization for Standardization ARSO (1998) Compressed earth blocks (CEB) ARS 670–683. African Regional Standards (ARS), Brussels/Nairobi
Dada SS (1998) Crust-forming ages and proterozoic crustal evoluton in Nigeria: a reappraisal of current interpretations. Precambrian Res 87:65–74. https://doi.org/10.1016/S0301-9268(97)00054-5
Delgado MCJ, Guerrero IC (2006) Earth building in Spain. Constr Build Mater 20:679–690. https://doi.org/10.1016/j.conbuildmat.2005.02.006
Elueze AA (2000) Compositional appraisal and petrotectonic significance of the Imelu banded ferruginous rock in the Ilesha schist belt, southwestern Nigeria. J Min Geol 36(1):8–18
Ferré E, Gleizes G, Caby R (2002) Obliquely convergent tectonics and granite emplacement in the Trans-Saharan belt of Eastern Nigeria: a synthesis. Precambrian Res 114:199–219. https://doi.org/10.1016/S0301-9268(01)00226-1
Gbadegesin A, Nwagwu U (1990) On the suitability assessment of the forest and savanna ecological zones of south-western nigeria for maize production. Agric Ecosyst Environ 31:99–113. https://doi.org/10.1016/0167-8809(90)90213-W
Gidigasu MD (1974) Renews degree of weathering in the identification of laterite materials for engineering purposes—a review. Eng Geol 8:213–266
González de Vallejo LI, Ferrer M (2011) Geological engineering. CRC Press/Balkema, Leiden
Goodary R, Lecomte-Nana GL, Petit C, Smith DS (2012) Investigation of the strength development in cement-stabilised soils of volcanic origin. Constr Build Mater. https://doi.org/10.1016/j.conbuildmat.2011.08.054
Houben H, Guillaud H (1994) Earth construction: a comprehensive guide. Intermediate Technology Publications, London
IBM SPSS Statistics 20 (2011) IBM Corporation US. http://www-01.ibm.com/common/ssi/rep_ca/5/897/ENUS211-285/ENUS211-285.PDF. Accessed 15 Nov 2015
Jiménez Delgado MC, Guerrero IC (2007) The selection of soils for unstabilised earth building: a normative review. Constr Build Mater 21:237–251. https://doi.org/10.1016/j.conbuildmat.2005.08.006
Joachin AWR, Kandiah S (1941) The composition of some local soil concretions and clays. Trop Agric 96:67–75
Kasthurba AK, Santhanam M, Mathews MS (2007) Investigation of laterite stones for building purpose from Malabar region, Kerala state, SW India—part 1: field studies and profile characterisation. Constr Build Mater 21:73–82. https://doi.org/10.1016/j.conbuildmat.2005.07.006
Kasthurba AK, Santhanam M, Achyuthan H (2008) Investigation of laterite stones for building purpose from Malabar region, Kerala, SW India—chemical analysis and microstructure studies. Constr Build Mater. https://doi.org/10.1016/j.conbuildmat.2006.12.003
Maignien R (1966) Compte rendu de recherches sur les latérites. UNESCO, Paris, p 155
Malomo S, Olorunniwo MA, Ogunsanwo O (1983) Engineering geological mapping in terrains of tropical weathering—an example from Abuja, Nigeria. Eng Geol 19(2):133–148
Millogo Y, Traoré K, Ouedraogo R, Kaboré K, Blanchart P, Thomassin JH (2008) Geotechnical, mechanical, chemical and mineralogical characterization of a lateritic gravels of Sapouy (Burkina Faso) used in road construction. Build Mater, Constr. https://doi.org/10.1016/j.conbuildmat.2006.07.014
Mitchell JK, Soga K (2005) Fundamentals of soil behavior, 3rd edn. Hoboken, Wiley
Morel JC, Mesbah A, Oggero M, Walker P (2001) Building houses with local materials: means to drastically reduce the environmental impact of construction. Build Environ 36:1119–1126. https://doi.org/10.1016/s0360-1323(00)00054-8
Oyelami AC, Alimi SA (2016) Geotechnical investigation of some failed sections along Osogbo-awo road, Osun-State, Southwestern Nigeria. Ife J Sci 17:87–95
Oyelami CA, Van Rooy JL (2016a) A review of the use of lateritic soils in the construction/development of sustainable housing in Africa: a geological perspective. J Afr Earth Sci 119:226–237. https://doi.org/10.1016/j.jafrearsci.2016.03.018
Oyelami CA, Van Rooy JL (2016b) Geotechnical characterisation of lateritic soils from south-western Nigeria as materials for cost-effective and energy-efficient building bricks. Environ Earth Sci 75:1475. https://doi.org/10.1007/s12665-016-6274-1
Rahaman MA, Ajayi TR, Oshin IO, Asubiojo FOI (1988) Trace element geochemistry and geotectonic setting of Ile-lfe schist belt. Precambrian Geology of Nigeria. Nigerian Geological Survey Publication, Kaduna, pp 241–256
Schellmann W (1981) Considerations on the definition and classification of laterites. In: Proceedings of the international seminar on lateritisation processes, Trivandrum, India. A.A. Balkema, Rotterdam, pp 1–10
Schellmann W (1994) Geochemical differentiation in laterite and bauxite formation. CATENA 21:131–143. https://doi.org/10.1016/0341-8162(94)90007-8
Schroeder H (2012) 4 - Modern earth building codes, standards and normative development BT - modern earth buildings. In: Woodhead publishing series in energy, Woodhead Publishing. pp 72–109. https://doi.org/10.1533/9780857096166.1.72
Stulz R, Mukerji K, Ile SK, Für ATAM (1993) Appropriate building materials: a catalogue of potential solutions. In: SKAT. Intermediate Technology Publications, Gallen, London
Talabi AO (2013) Mineralogical and chemical characterization of major basement rocks in Ekiti State, SW-Nigeria Mineraloške in kemične značilnosti glavnih kamnin podlage v državi Ekiti v JZ Nigeriji
Tijani MN, Okunlola OA, Abimbola AF (2006) Lithogenic concentrations of trace metals in soils and saprolites over crystalline basement rocks: a case study from SW Nigeria. J Afr Earth Sci 46:427–438. https://doi.org/10.1016/j.jafrearsci.2006.08.003
UNDP (2017) UNDP support to the implementation of the sustainable development goals. http://www.undp.org/content/undp/en/home/librarypage/sustainable-development-goals/undp-support-to-the-implementation-of-the-2030-agenda/. Accessed 15 Feb 2017
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Oyelami, C.A., Van Rooy, J.L. Mineralogical characterisation of tropical residual soils from south-western Nigeria and its impact on earth building bricks. Environ Earth Sci 77, 178 (2018). https://doi.org/10.1007/s12665-018-7354-1
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DOI: https://doi.org/10.1007/s12665-018-7354-1