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Considerations for the Energy Balance and Preliminary Design of an Experimental LC3 Cement Pilot Plant Read chapter Read first chapter

2020 | OriginalPaper | Chapter

Preliminary Results on Corrosion Rate in Carbonated LC3 Concrete

Authors : Elizabeth Cabrera, Adrián Alujas, Bernhard Elsener, Jose Fernando Martirena-Hernandez

Published in: Proceedings of the International Conference of Sustainable Production and Use of Cement and Concrete

Publisher: Springer International Publishing

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Abstract

The new blended cement, LC3, can reduce by up to a 30% of the CO2 emissions per ton of cement, including calcined clay and limestone as main components. However, the low level of clinker content concern about carbonation-induced corrosion of the reinforcing steel. The aim of this project is to measure the corrosion rate and understand the corrosion mechanism of reinforcing steel in concrete made with LC3 cement. The samples were cast in molds specifically designs in order to minimize the carbonation time and the moisture equilibration time. There is a finer porosity for LC3 cement and the porosity decrease when the carbonation takes place due to the transformation of the portlandite into calcite. However, when the clinker substitution is higher, the total porosity increase, but there is a coarsening porosity for blended systems after carbonation because the C-S-H are converted into calcite with a smaller volume. In all LC3 samples, the corrosion rate is higher compared with OPC cement, but there are differences regarding the induced carbonation and natural carbonation especially for LC3 samples with a more tortuous pore system than OPC assuring the high resistance to the carbonation.

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previous chapter Atmospheric Corrosion Behaviors of Reinforcement Steel in Reinforced Concrete in a Coastal City as Havana, Cuba
next chapter Use of Electrical Test Method on Determination Aging Factor of Concrete Incorporating Supplementary Cementitious Materials
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Metadata
Title
Preliminary Results on Corrosion Rate in Carbonated LC3 Concrete
Authors
Elizabeth Cabrera
Adrián Alujas
Bernhard Elsener
Jose Fernando Martirena-Hernandez
Copyright Year
2020
Book
Proceedings of the International Conference of Sustainable Production and Use of Cement and Concrete

Print ISBN: 978-3-030-22033-4

Electronic ISBN: 978-3-030-22034-1

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-3-030-22034-1_33