Revista IBRACON de Estruturas e Materiais (Jun 2023)

Chloride ion penetration resistance in concretes produced with recycled fine aggregates and silica fume

  • Renata Leal Henriques,
  • Priscylla Botelho Athayde,
  • Aldo Giuntini de Magalhães,
  • Thiago Abdala Magalhães,
  • Fabrício Vieira de Andrade

DOI
https://doi.org/10.1590/s1983-41952024000200007
Journal volume & issue
Vol. 17, no. 2

Abstract

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Abstract The use of by-products and recyclable materials in the production of concrete has become an interesting alternative to mitigate environmental impacts, especially those generated by the construction industry, as long as their mechanical and durability properties do not early compromise the service life of the structures. The resistance of concrete to the penetration of harmful agents, such as chloride ions, is an important property since it directly correlates with the performance, integrity, and durability of reinforced concrete structures. This study evaluate four concrete mixes were cast for aggressiveness class III of NBR 6118 [1] produced with 8% of partial replacement of Portland cement with silica fume, resulting of metallurgical production, and with 30% partial replacement of natural fine aggregates by recycled fine aggregate from fresh concrete waste, obtained from the concrete production process in concrete mixer trucks. At 28 days of age, the specimen was submitted to capillarity, mechanical resistance and chloride migration tests, according to the NT BUILD 492 standard [2]. In general, the results indicated that the proposed replacements improved mechanical properties and chloride ion penetration resistance, mainly with the incorporation of silica fume.

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