Study of the influence of red ceramic residue, as a partial substitute for the binder or aggregate, in mixed mortars for coating

Authors

DOI:

https://doi.org/10.33448/rsd-v9i11.10507

Keywords:

Mixed mortars; Sustainability; Technology of architecture; Red ceramic residue.

Abstract

In order to promote a global network of sustainable economic development for developing countries, several countries produced a document with direct guidelines for more sustainable industrial development during the United Nations Conference on Environment and Development in 1992, with emphasis on waste reduction and reuse of by-products. Since the industries that produce ceramic materials are an important branch of the civil construction production chain, it also stands out for being a major generator of waste, the so-called red ceramic residue (RCR). Seeking a more sustainable destination of these by-products, this work aimed to evaluate some possibilities of using the RCR, from the manufacture of sealing bricks, as a substitute for fine aggregate or agglomerate, in mixed mortars with 1: 2: 8 features and 1: 2: 9. The application was evaluated for the mechanical and physical performance of mortars, with contents of 5% and 10% of cement replacement by RCR, and 10%, 15% and 20% of aggregate replacement. The performances of 1: 2: 8 mortars were superior to the 1: 2: 9 traces, both mechanically and in relation to capillary absorption. A different fact occurred when the absorption by immersion and voids index were tested, where the two traits had similar behaviors. The substitutions in the aggregate affected the mortars more mechanically compared to the substitution in the binder, given the greater porosity of the RCR. The substitutions in the binder made the mortars present performances closer to the reference strokes.

Author Biographies

Francielli Priebbernow Pinz, Federal University of Pelotas

Graduated in Architecture and Urbanism (2017) and Master in Architecture and Urbanism (2019) from the Federal University of Pelotas. She worked as a substitute professor at Instituto Federa Sul-Rio-Grandense (2017-2019) and currently works as an Architect in Optimizes Architecture. Has experience in Architecture and Urbanism, working on the following themes: RCV, mortars, Waste recycling, Architecture Technology.

Charlei Marcelo Paliga, Federal University of Pelotas

He has a degree in Civil Engineering from the Federal University of Rio Grande (2000), a master's degree in Ocean Engineering from the Federal University of Rio Grande (2003) and a PhD in Civil Engineering from the Federal University of Rio Grande do Sul (2007). He is currently associate professor 3 at the Federal University of Pelotas. Has experience in the area of ​​Civil Engineering, acting mainly on the following themes: design of reinforced concrete structures, finite element method, recovery / reinforcement of concrete structures with fiber reinforced polymers, structural reliability.

Ariela da Silva Torres, Universidade Federal de Pelotas

Graduated in Civil Engineering from Universidade Católica de Pelotas (2003), Master in Civil Engineering with emphasis on structure - PPGEC / UFRGS (2006) and PhD in Civil Engineering with emphasis on structures - PPGEC / UFRGS (2011). Associate Professor 1 at the Faculty of Architecture and Urbanism at UFPel. She works at PPG in Architecture and Urbanism (permanent professor) in the research line: Technology and Conservation of the Built Environment. Leader of the Research Group on Pathologies and Materials (NEPAMAT). Has experience in the area of ​​Civil Engineering, acting mainly on the following themes: design of reinforced concrete structures, Construction Pathology, use of waste in civil construction.

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Published

06/12/2020

How to Cite

PINZ, F. P. .; PALIGA, C. M.; TORRES, A. da S. Study of the influence of red ceramic residue, as a partial substitute for the binder or aggregate, in mixed mortars for coating. Research, Society and Development, [S. l.], v. 9, n. 11, p. e90191110507, 2020. DOI: 10.33448/rsd-v9i11.10507. Disponível em: https://rsdjournal.org/index.php/rsd/article/view/10507. Acesso em: 14 nov. 2024.

Issue

Section

Engineerings