Suitability of mortars produced using laterite and ceramic wastes: Mechanical and microscale analysis
•With total replacement of sand with ceramic fines, dry bulk density decreased with increasing ceramic powder.•Laterite dominated samples have higher water absorption by capillary action.•Strength increased due to filler action and relative pozzolanic reaction of ceramic.•Structure of ceramic based...
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| Published in: | Construction & building materials Vol. 148; pp. 195 - 203 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
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01-09-2017
Elsevier B.V |
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| Abstract | •With total replacement of sand with ceramic fines, dry bulk density decreased with increasing ceramic powder.•Laterite dominated samples have higher water absorption by capillary action.•Strength increased due to filler action and relative pozzolanic reaction of ceramic.•Structure of ceramic based concrete appears compacted than conventional concrete.
Using industrial wastes and local materials as artificial aggregates in cement based materials remains a relevant measure for conservation of natural sources. In this study, novel cementitious mixes containing pulverized ceramic blended cement, ceramic aggregate and laterite were systematically combined to produce cement mortars. The mortar specimens were cured in water for a maximum of 28days. At maturity, nondestructive tests, X-ray CT scan and ultrasonic pulse velocity, were performed on hardened mortars. Thereafter, a series of predefined properties, namely dry bulk density, compressive and flexural strength, water absorption coefficient (due to capillary) of the hardened mortars were determined. Finally, in order to understand the hydration mechanism of the materials as it relates to the strength properties, microscale tests, SEM and XRD, were used to examine the fragments of the selected mortars. From the results, a mortar sample containing 10% ceramic powder and 100% ceramic aggregate as replacements for cement and sand respectively, gave higher strength values than the reference and other mixes. Microstructural analysis of the best mix revealed that it has larger proportions of ettringite, portlandite and calcite than the reference mix, and this could be responsible for the strength gained. Thus, despite the apparent low reactivity of crushed ceramic material, this can improve bonding in cement-based mixture, when used at an appropriate concentration. |
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| AbstractList | •With total replacement of sand with ceramic fines, dry bulk density decreased with increasing ceramic powder.•Laterite dominated samples have higher water absorption by capillary action.•Strength increased due to filler action and relative pozzolanic reaction of ceramic.•Structure of ceramic based concrete appears compacted than conventional concrete.
Using industrial wastes and local materials as artificial aggregates in cement based materials remains a relevant measure for conservation of natural sources. In this study, novel cementitious mixes containing pulverized ceramic blended cement, ceramic aggregate and laterite were systematically combined to produce cement mortars. The mortar specimens were cured in water for a maximum of 28days. At maturity, nondestructive tests, X-ray CT scan and ultrasonic pulse velocity, were performed on hardened mortars. Thereafter, a series of predefined properties, namely dry bulk density, compressive and flexural strength, water absorption coefficient (due to capillary) of the hardened mortars were determined. Finally, in order to understand the hydration mechanism of the materials as it relates to the strength properties, microscale tests, SEM and XRD, were used to examine the fragments of the selected mortars. From the results, a mortar sample containing 10% ceramic powder and 100% ceramic aggregate as replacements for cement and sand respectively, gave higher strength values than the reference and other mixes. Microstructural analysis of the best mix revealed that it has larger proportions of ettringite, portlandite and calcite than the reference mix, and this could be responsible for the strength gained. Thus, despite the apparent low reactivity of crushed ceramic material, this can improve bonding in cement-based mixture, when used at an appropriate concentration. |
| Audience | Trade |
| Author | Thom, N.H. Akinmusuru, J.O. Awoyera, P.O. Dawson, A.R. |
| Author_xml | – sequence: 1 givenname: P.O. surname: Awoyera fullname: Awoyera, P.O. email: paul.awoyera@covenantuniversity.edu.ng organization: Department of Civil Engineering, Faculty of Engineering, University of Nottingham, University Park, Nottingham NG7 2RD, UK – sequence: 2 givenname: A.R. surname: Dawson fullname: Dawson, A.R. organization: Department of Civil Engineering, Faculty of Engineering, University of Nottingham, University Park, Nottingham NG7 2RD, UK – sequence: 3 givenname: N.H. surname: Thom fullname: Thom, N.H. organization: Department of Civil Engineering, Faculty of Engineering, University of Nottingham, University Park, Nottingham NG7 2RD, UK – sequence: 4 givenname: J.O. surname: Akinmusuru fullname: Akinmusuru, J.O. organization: Department of Civil Engineering, Covenant University, Ota, Nigeria |
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| Keywords | Laterite Ettringite Mortar Pozzolan Microstructural analysis Ceramic waste Strength properties Portlandite Quartz Calcite |
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| SubjectTerms | Analysis Calcite Cements (Building materials) Ceramic waste Ettringite Laterite Mechanical properties Microstructural analysis Mortar Portlandite Pozzolan Pozzolans Quartz Strength (Materials) Strength properties Waste management |
| Title | Suitability of mortars produced using laterite and ceramic wastes: Mechanical and microscale analysis |
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