Evaluation of the evolutionary behavior of concrete shrinkage at 28 days - focus on slabs on grade in Brazil

Authors

  • Igor Donisete LPE Engenharia
  • Renan Salvador PROLAB - Engenharia de Construção

DOI:

https://doi.org/10.47842/juts.v7i1.70

Keywords:

Slabs on grade, Shrinkage, Shrinkage compensating admixture, Sustainability

Abstract

This article aims to present the feasibility of predicting the evolutionary behavior of hydraulic concrete shrinkage at ages below 56 days, with the goal of reducing the analysis timelines for testing. Thus, it is expected that this study will be useful in minimizing planning failures, generating positive economic impacts, and addressing a technical gap in this field. The research is situated within the context of studies on the durability of concrete structures, focusing on shrinkage as one of the main mechanisms that exacerbate pathologies in slabs on grade. The available literature highlights the importance of assessing shrinkage at different ages of concrete but lacks robust information on optimizing timelines for obtaining reliable results. A robust database was utilized, containing over 200 shrinkage tests conducted between 2020 and 2023, covering different regions of Brazil. The data were analyzed by comparing the results obtained at different ages (14, 28, and 56 days), while also considering variables such as the water/cement ratio, the type of cement, and the use of shrinkage-compensating admixtures. It was concluded that the feasibility of optimizing the evaluation period for the results by 50% allows for the adoption of 28 days as a design parameter. In summary, the study highlights the importance of methodological innovations aimed at constructive and sustainable efficiency. The study is pioneering in proposing a methodology to predict concrete shrinkage at ages below 56 days, allowing for the introduction of a new parameter for evaluation. The value of the research lies in its contribution to optimizing construction processes and improving the quality of slabs on grade.

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Author Biographies

Igor Donisete, LPE Engenharia

Graduated in Civil Engineering from Anhanguera University in São Paulo in 2015, with a Lato-Sensu Postgraduate degree (MBA) in Leadership, Innovation, and Management 3.0 from PUCRS (Pontifical Catholic University of Rio Grande do Sul). He is currently pursuing a Professional Master's degree in Civil Engineering at São Judas Tadeu University (USJT). He has participated in numerous conferences, lectures, and seminars with a focus on geotechnics, concrete, and industrial flooring. Since 2012, he has worked in consulting and concrete flooring and paving projects. He is currently the Manager of the Construction Department at LPE Engenharia.

Renan Salvador, PROLAB - Engenharia de Construção

Professional with solid academic and scientific skills, with a Bachelor’s degree in Chemistry from the University of São Paulo, a Master’s degree in Civil Engineering from the same university, a Doctorate degree in Civil Engineering from the Polytechnic University of Catalonia and a Post-doctorate degree from the University of São Paulo. Over 13 years of experience in research and development in Chemistry and Construction Engineering, working mainly in construction materials, sprayed concrete, cement hydration, concrete admixtures and fibers for concrete reinforcement.

References

ABNT. ABNT NBR 6118: projeto de estruturas de concreto: procedimentos. Rio de Janeiro: ABNT, 2023.

ABNT. ABNT NBR 11768: aditivos químicos para concreto de cimento Portland - Parte 1: requisitos. Rio de Janeiro: ABNT, 2019.

ABNT. ABNT NBR 16834: concreto — determinação da variação dimensional (retração ou expansão linear). Rio de Janeiro: ABNT, 2020.

ABNT. ABNT NBR 16697: Cimento Portland: requisitos. Rio de Janeiro: ABNT, 2018.

ANAPRE. Mercado de pisos industriais no Brasil: cenário e perspectivas do segmento. São Paulo: ANAPRE, 2022.

ANAPRE. Palestra no Concrete Congress, South America. São Paulo: ANAPRE, 2008.

ASTM. ASTM C 157 M: Standard Test Method for Length Change of Hardened Hydraulic - Cement Mortar and Concrete. West Conshohocken: ASTM International, 2017.

MEHTA, P. K; MONTEIRO, P. J. M. Concrete: microstructure, properties, and materials. 4. ed. New York: McGraw-Hill Professional Publishing, 2013.

ONU. Objetivo de Desarrollo Sostenible 12: Consumo y Producción Responsables. Genebra, 2024. Disponível em: https://www.un.org/sustainabledevelopment/es/sustainable-consumptionproduction/. Acesso em: 16 abr. 2024.

RODRIGUES, Públio Penna Firme. Projetos e critérios executivos de pavimentos industriais de concreto armado. São Paulo: Instituto Brasileiro de Telas Soldadas, 2006.

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Published

2024-12-23

How to Cite

DONISETE, I.; SALVADOR, R. Evaluation of the evolutionary behavior of concrete shrinkage at 28 days - focus on slabs on grade in Brazil. Journal of Urban Technology and Sustainability, [S. l.], v. 7, n. 1, p. e70, 2024. DOI: 10.47842/juts.v7i1.70. Disponível em: https://journaluts.emnuvens.com.br/journaluts/article/view/70. Acesso em: 14 oct. 2025.

Issue

Vol. 7 No. 1 (2024)

Section

Artigos Tecnológicos

License

Copyright (c) 2024 Igor Donisete, Renan Salvador

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