Best practices for pervious concrete mix design and laboratory tests
Autor(en): |
F. B. P. Costa
A. Lorenzi L. Haselbach L. C. P. Silva Filho |
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Medium: | Fachartikel |
Sprache(n): | Englisch |
Veröffentlicht in: | Revista IBRACON de Estruturas e Materiais, Oktober 2018, n. 5, v. 11 |
Seite(n): | 1151-1159 |
DOI: | 10.1590/s1983-41952018000500013 |
Abstrakt: |
Pervious concrete may be used for stormwater management since it allows the water to pass through its interconnected macropores into stormwater systems or soils below. However, there is a need for additional standards related to pervious concrete prior to its widespread use, and there are many aspects related to mix design for desired properties, compaction methods, and test procedures that are not yet completely understood. These variables may significantly affect the functional and mechanical performance of the material. In this paper, mix designs and test specimen preparation techniques were evaluated. The IBRACON method for mixture design was used to obtain the mixture proportions and the calculated density for the desired porosity of 25%. In addition, two different types of specimens (cast or cored) and compaction methods (roller or Proctor hammer compacted) were performed. The density of each specimen was controlled to obtain the same calculated density. Several tests were conducted to compare the following variables: density, porosity, surface infiltration rate, permeability and compressive strength. Additionally, the effects of mortar capping versus neoprene-rubber caps on compressive strength measurements of pervious concrete were evaluated. The experimental results showed that cast specimens have more consistent results than cores. The design method studied with strict control of density was efficient to obtain the desired porosity mainly for cast specimens. The roller leads to a more compacted top surface resulting in a decrease in the infiltration rate and permeability of the cores. The mortar capping method is more consistent than the other. |
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12.02.2020