Use of Ceramic Sanitaryware as an Alternative for the Development of New Sustainable Binders

Lucía Reig; M.V. Borrachero; J.M. Monzó; Holmer Savastano; Mauro M. Tashima; J. Payá

doi:10.4028/www.scientific.net/KEM.668.172

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Use of Ceramic Sanitaryware as an Alternative for the Development of New Sustainable Binders
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 668Use of Ceramic Sanitaryware as an Alternative for...

Use of Ceramic Sanitaryware as an Alternative for the Development of New Sustainable Binders

Abstract:

Large amounts of ceramic sanitary-ware waste are generated in both the production process and construction and demolition practices. This waste contains amorphous phases that may react with the Portlandite that originates during Portland cement hydration or with an alkali solution, leading to a low CO₂-binding material. This study investigated the pozzolanic activity of ceramic sanitary-ware waste, together with its potential to form new binders by alkali activation. For this purpose, raw material was characterized by X-ray diffraction, X-ray fluorescence, particle size distribution, thermogravimetry (TGA) and scanning electron microscopy (SEM). Percentages of ceramic waste of 15 wt.% and 25 wt.%, to replace Portland cement, were used to assess the pozzolanic behavior of this material, and samples were cured at 20oC for different curing times. Alkali-activated samples, in which Ca (OH)₂ was used as a source of calcium, and NaOH and sodium silicate solutions were utilized as activators, were cured for 7 days at 65oC. The microstructural evolution of the developed binders was assessed in pastes by SEM and TGA analyses, and mortars were used to evaluate the compressive strength behavior. While some strength gain was observed due to pozzolanic activity, compressive strength values within the 14-36 MPa range were obtained in the alkali-activated mortars in accordance with the activator concentration and the percentage of Ca (OH)₂ addition.

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Periodical:

Key Engineering Materials (Volume 668)

Pages:

172-180

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.668.172

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Online since:

October 2015

Authors:

Lucía Reig*, M.V. Borrachero, J.M. Monzó, Holmer Savastano, Mauro M. Tashima, J. Payá

Keywords:

Alkali Activation, Ceramic Waste, Mechanical Strength, Pozzolan

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References

[1] S. Ioannou, L. Reig, K. Paine, K. Quillin, Properties of a ternary calcium sulfoaluminate–calcium sulfate–fly ash cement, Cem. Concr. Res. 56 (2014) 75-83.

DOI: 10.1016/j.cemconres.2013.09.015

Google Scholar

[2] A. Halicka, P. Ogrodnik, B. Zegardlo, Using ceramic sanitary ware waste as concrete aggregate, Constr. Build. Mater. 48 (2013) 295–305.

DOI: 10.1016/j.conbuildmat.2013.06.063

Google Scholar

[3] C. Medina, A. Juan, M. Frías, M.I. Sánchez de Rojas, J.M. Morán, M.I. Guerra, Characterization of concrete made with recycled aggregate from ceramic sanitary ware, Mater. Constr. 61, 304 (2011) 533-546.

DOI: 10.3989/mc.2011.59710

Google Scholar

[4] F. Puertas, I. García-Díaz, A. Barba, M.F. Gazulla, M. Palacios, M.P. Gómez, S. Martínez-Ramírez, Ceramic wastes as alternative raw materials for Portland cement clinker production, Cem. Concr. Compos. 30, 9 (2008) 798–805.

DOI: 10.1016/j.cemconcomp.2008.06.003

Google Scholar

[5] L. Reig, M.M. Tashima, M.V. Borrachero, J. Monzó, C.R. Cheeseman, J. Payá, Properties and microstructure of alkali-activated red clay brick waste, Constr. Build. Mater. 43 (2013) 98–106.

DOI: 10.1016/j.conbuildmat.2013.01.031

Google Scholar

[6] L. Reig, L. Soriano, M.V. Borrachero, J. Monzó, J. Payá, Influence of the activator concentration and calcium hydroxide addition on the properties of alkali-activated porcelain stoneware, Constr. Build. Mater. 63 (2014) 214–222.

DOI: 10.1016/j.conbuildmat.2014.04.023

Google Scholar

[7] J. Payá, J. Monzó, M.V. Borrachero, S. Velázquez, Evaluation of the pozzolanic activity of fluid catalytic cracking catalyst residue (FC3R). Thermogravimetric analysis studies on FC3R-Portland cement pastes, Cem. Concr. Res. 33 (2003) 603 – 609.

DOI: 10.1016/s0008-8846(02)01026-8

Google Scholar