Behavior of mortar blended with quartzite residues when subjected to natural aging
DOI:
https://doi.org/10.5902/2236117039183Keywords:
Quartzite residue, Durability, Natural aging, Mechanical behaviorAbstract
The mixture of mortars with quartzite residues is a recycling technique that has been widely used to promote the adequate management of solid waste generated in the municipality of Várzea-PB, Brazil. However, there are no reports in the literature that prove the durability of the mortar mixed with these residues when subjected to environmental conditions over time. Thus, the present work has as objective to study the durability of mortars incorporated with quartzite residues when submitted to natural aging. The reference mortar and incorporated with quartzite were prepared according to NBR 13281 and submitted to natural aging for 28, 60, 120, 180 and 360 days. Then, they were characterized by x-ray diffraction, thermogravimetric analysis and simple compression strength and carbonation and pozzolanic measurements. The results showed that, despite the decrease in compressive strength of quartzite containing mortars, the durability was not compromised, since the values were maintained in the range suggested by NBR 13281. Finally, it was concluded that mortars produced with quartzite residues presented good mechanical behavior when submitted to natural aging.Downloads
References
Associação Brasileira de Normas Técnicas (2012). NBR 5251: Pozzolans — Pozzolanic activity — Determination activity index with lime — Test method. Rio de Janeiro.
Associação Brasileira de Normas Técnicas. (1996). NBR 7215: Portland cement - Determination of compressive strength. Rio de Janeiro.
Associação Brasileira de Normas Técnicas. (2005). NBR 13276: Mortars applied on walls and ceilings - Preparation of mortar for unit masonry and rendering with standard consistence index. Rio de Janeiro.
Associação Brasileira de Normas Técnicas. (2005). NBR 13281: Mortars applied on walls and ceilings - Requirements. Rio de Janeiro.
Associação Brasileira de Normas Técnicas. (2014). NBR 5252: Pozzolanic materials — Determination of the performance index with Portland cement at 28 days. Rio de Janeiro.
Bacarji E, Toledo Filho RD, Koenders EAB, Figueiredo EP, Lopes JLMP. Sustainability perspective of marble and granite residues as concrete fillers. Construction and Building Materials. 2013;45:1-10.
Balasubramanian J, Gopal E., Periakaruppan, P. Strength and microstructure of mortar with sand substitutes. Građevinar. 2019;68:29-37.
Barros SVA, Marciano JEA, Ferreira HC, Menezes RR, Neves GA. Addition of quartzite residues on mortars: Analysis of the alkali aggregate reaction and the mechanical behavior. Construction and Building Materials. 2016;118:344-351.
Barros SVA, Neves GA, Menezes RR, Dantas GCB, Felix GA, Pimentel PM. Mechanical behavior and durability of mortars with quartzite and portland cement after sulfate attack. Materia-Rio de Janeiro. 2019; 24(12353);1-10.
Binici H, Shah T, Aksogan O, Kaplan H. Durability of concrete made with granite and marble as recycle aggregates. Journal of materials processing technology. 2008;208:299-308.
Brasil. Lei nº 12.305, de 02 de agosto de 2010. Institui a Política Nacional de Resíduos Sólidos; altera a Lei no 9.605, de 12 de fevereiro de 1998; e dá outras providências. Brasília, 2010. Available from: http://www.planalto.gov.br/ccivil_03/_ato2007-2010/2010/lei/l12305.htm.
Cruz MDS, Dantas GCB, Ramos SO. Avaliação do sistema de gerenciamento de resíduos de construção civil em duas obras situadas em um município do interior potiguar. Revista Gestão e Sustentabilidade Ambiental. 2019;8(2):612-625.
Dantas GCB, Forbeloni JV, Pacheco ASV, Campelo IC, Farias HM. Perceptions of waste pickers in an association located in Seridó/RN about the adverse working conditions: an analysis of the collective subject. Revista Eletrônica em Gestão, Educação e Tecnologia Ambiental. 2017;21(3):210-221.
Dantas GCB, Silva LBMV, Farias HM, Ramos SO, Barros SVA, Forbeloni JV. Catadores de recicláveis associados: problemática das condições de trabalho em uma organização localizada no Estado do Rio Grande do Norte - Brasil. Revista Eletrônica em Gestão, Educação e Tecnologia Ambiental. 2018;22(8): 1-11.
Ercikdi B, Kulekci G, Yilmaz T. Utilization of granulated marble wastes and waste bricks as mineral admixture in cemented paste backfill of sulphide-rich tailings. Construction and Building Materials. 2015;93:573-583.
Farias Filho J, Menezes RR, Ferreira HS, Santana LNL, Neves GA, Ferreira HC. Study of the durability of alternative mortars containing residues. Cerâmica. 2011;57:395-403.
Gameiro A, Silva AS, Faria P, Grilo J, Branco T, Veiga R, Velosa A. Influence of carbonation and carbonation methods on leaching of metals from mortars. Cemente & Concrete Composites. 2014;45:264-271.
Gameiro A, Silva AS, Veiga R, Velosa A. Hydration products of lime–metakaolin pastes at ambient temperature with ageing. Thermochimica Acta. 2012;535: 36-41.
Gameiro F, Brito J, Silva DC. Durability performance of structural concrete containing fine aggregates from waste generated by marble quarrying industry. Engineering Structures. 2014;59:654-662.
INMET – Database of the National Institute of Meteorology (2016).
John VM, Cincotto MA, Sjostrom C, Agopyan V, Oliveira CTA. Durability of slag mortar reinforced with coconut fibre. Cement & Concrete Composites. 2005;27:565-574.
Marmol I, Ballester P, Cerro S, Monros G, Morales J, Sanchez L. Use of granite sludge wastes for the production of coloured cement-based mortars. Cement & Concrete Composites. 2010;32:617-622.
Mota JMF, Oliveira RA, Carneiro AMP. Durability of mortar with addition metakaolin of reinforcement for masonry. Materia Magazine. 2016;21:1105-1116.
Ramos SO, Dantas GCB, Lira HL, Pimentel PM, Marciano JEA. Caracterização de argilas de novos jazimentos situados em Parelhas/RN, Brasil, visando aplicação na indústria cerâmica. Materia-Rio de Janeiro. 2019;24(12352):1-9.
Rocha CAA, Cordeiro GC, Toledo Filho RD. Influence of rock cutting residues and ground ceramic blocks on hydration and packaging of cement pastes. Journal of structures and materials. 2013;6:661-680.
Schackow A, Stringari D, Senff L, Correia SL, Segadães AM. Influence of fired clay brick waste additions on the durability of mortars. Cement & Concrete Composites. 2015;62:82–89.
Tennich M, Kallel A, Ouezdou MB. Incorporation of fillers from marble and tile wastes in the composition of self-compacting concretes. Construction and Building Materials. 2015;91:65-67.
Ulubeyli GC, Artir R. Sustainability for Blast Furnace Slag: Use of Some Construction. Procedia - Social and Behavioral Sciences. 2015;195:2191-2198.
Vijayalakshmi M, Sekar ASS, Prabhu, GG. Strength and durability properties of concrete made with granite industry waste. Construction and Building Materials. 2013;46:1-7.
Published
Versions
- 2022-08-01 (2)
- 2020-01-13 (1)