Abstract
Aggregates are a significant component of pervious concrete. Pervious concrete using iron tailings as coarse aggregates was prepared to study the feasibility of this approach. A mix design procedure was also used to design pervious concrete based on different target porosities. The effective porosity, measured porosity, dry density, compressive strength, and permeability coefficient of pervious concrete were studied. The results show that the mix design procedure based on a target porosity is relatively reasonable for designing iron tailing-based pervious concrete. The 28 d compressive strength of the pervious concrete decreased from 42 to 11 MPa as the effective porosity increased from 5.2% to 27.2%. The effective porosity of the equilibrium point of the compressive strength and permeability coefficient of pervious concrete was approximately 16%, where the compressive strength was 21.5 MPa, and the water permeability was 3.2 mm/s. The permeability coefficient of pervious concrete can be predicted as an exponential function of the effective porosity, and the compressive strength of pervious concrete can be predicted as a logarithmic function of the effective porosity.
Highlights
Pervious concrete is one of the most typical components in the construction of sponge cities.The purpose of sponge cities is mainly to alleviate the heat island effect and to improve the hydrological environment of the city [1,2]
The water on the upper surface of pervious concrete can only flow through the open pores to the lower surface of pervious composed of hydration products, iron tailings, compacted pores, closed pores, and open pores
It is expected that the 28 d compressive compressive strength of of the the pervious pervious concrete concrete decreased from 42 MPa to 11 MPa with the effective porosity increasing from 5.2% to 27.2%
Summary
Pervious concrete is one of the most typical components in the construction of sponge cities. The current mix design methods of pervious concrete are based on the porosity [7,8]. (2) The variables of the studies mainly focus on the replacement amount and aggregate size as well as the binder type and curing conditions. Investigations on pervious concrete have been reported extensively, there are few reports on the feasibility of iron tailings as coarse aggregates in pervious concrete. Iron tailings-based pervious concrete with different target porosities was prepared by a mix design procedure to study the feasibility of iron tailings as coarse aggregates. The effective porosity, measured porosity, dry density, compressive strength and permeability coefficient of the pervious concrete were measured and analyzed to obtain the key technologies for preparing iron tailings-based pervious concrete.
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