Pervious Concrete as an Environmental Solution for Pavements: Focus on Key Properties

Kováč, Marek; Sičáková, Alena

doi:10.3390/environments5010011

Cited by 36 publications

(22 citation statements)

References 6 publications

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“…Panimayam et al, [21] added granite manufactured sand and determined the compressive strength and permeability. Pervious concrete is considered to be an advanced pavement material in terms of the environmental benefits arising from its basic featurehigh water-permeability [22]. Most of the literature studies has either mixed the material or replaced partial sand so in this study authors have replaced sand/fine aggregate with consecutive order proportion from 10% up to 100% fully reduced to save the natural material also study the compressive strength and permeability.…”

Section: Literature Reviewmentioning

confidence: 99%

Experimental Investigation of Compressive Strength and Infiltration Rate of Pervious Concrete by Fully Reduction of Sand

Manan¹,

Ahmad

et al. 2018

CivileJournal

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The aim of the study is to investigate compressive strength of pervious concrete by reduction of fine aggregate from zero to 100%, additionally investigate infiltration rate of pervious concrete. Experimental study has conducted at Cecos Engineering University Peshawar. The pervious concrete samples were produced for 7 and 28 days. Compressive strength of pervious concrete indicated higher reduction of the sand reduces compressive strength and almost 50% compressive strength decreased by reduction of 100% sand from the design mix. On the other side, infiltration rate for 28 days shows direct relation above 40% reduction of sand and highest 273% of infiltration rate by reducing 100% sand from the design mix. The 90% reduction of sand from concrete give considerable compressive strength of 2150 psi and infiltration rate of 165.79 inch/hour, which can be recommended for pavements of parking and walking area.

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Section: Literature Reviewmentioning

confidence: 99%

Experimental Investigation of Compressive Strength and Infiltration Rate of Pervious Concrete by Fully Reduction of Sand

Manan¹,

Ahmad

et al. 2018

CivileJournal

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“…During the mixing process, the nature of the fresh mixture's workability was controlled visually [41]. A greater aggregate mixture with the potential of segregation was prevented by mixing manually.…”

Section: Resultsmentioning

confidence: 99%

Properties of pervious concrete with various types and sizes of aggregate

Mulyono

Anisah

2019

MATEC Web Conf.

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The benefit of pervious concrete lies in its ability to transport a large volume of water through its pores to the underlying strata, and it often serves as a pavement for vehicles and pedestrians. This research aimed to determine the properties of pervious concrete based on trials in the laboratory. The method used in this research was a laboratory experiment in accordance with the appropriate standards. The local material used in the mixture was a material composition with Portland Cement Composite with a water-cement (W/C) ratio 0.27 to 0.34, with aggregates of various types and sizes and fly ash and superplasticizer as the added ingredients. The mixture for the trial used 4.25 for the aggregatecement ratio (A/C) with a proportion of 6% for the fine aggregate (sand), 15% flay ash and a low dosage of superplastizer. The test results showed a slight difference in compressive strength and split tensile strength alongside variations in the W/C, including the use of different aggregate types and sizes. The permeability when using natural aggregate was more porous compared to the crushed stone. The effect of the aggregate size from small to large will result in decreased density (unit weight) and increased void in the mixture. Good agreement was reached in the 0.30 wcr mixture with an aggregate size that passed through a 12.5 mm sieve, that was retained at 9.5 mm and that provided suitable compressive strength.

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“…Porous concrete is a type of concrete containing interconnected pores (usually air void content is from 5 to 25% by volume) with typical water permeability rate of ≥200 L/min/m 2 (Sonebi et al 2016;Kováč, Sičáková 2018;Tennis et al 2004). Maximum aggregate size of wearing layer porous concrete should be 8 mm or less (Kováč, Sičáková 2018;Hendrikx 1998). Typical compressive strength of porous concrete is from 3.5 to 28.0 MPa, though 17 MPa is usual (Tennis et al 2004).…”

Section: Slab Surface Texture Element Theoretical Designmentioning

confidence: 99%

“…Acceptable value of flexural strength is 3.5 MPa. In various geographic areas required water/cement ratio is 0.27…0.34 (Sonebi et al 2016;Mahboub et al 2009;Tennis et al 2004;Elliot 2010;Kováč, Sičáková 2018). However, porous concrete with compressive strength around 17 MPa is more suitable for light traffic areas -for highways and other heavy traffic areas is necessary to use much more stronger porous concrete.…”

Section: Slab Surface Texture Element Theoretical Designmentioning

confidence: 99%

Definition of Concrete and Composite Precast Concrete Pavements Texture

et al. 2019

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In the context of increasing traffic demands and emerging mobility trends road infrastructure has to shift towards the fifth generation of roads, which according to Forever Open Road (FOR) vision are envisioned as adaptable to traffic volumes, resilient to changing weather conditions, quickly built, effectively maintained, suitable for retrofitting, self-monitoring, self-repairing and recyclable. Concrete modular pavements can be defined as an example of such type of road infrastructure. Functional needs are mainly associated with implementation area/location, traffic and mobility demands, environmental constraints and etc. This also has a significant impact on the selection of Precast Concrete Pavements (PCP) texture formation method and materials. Concrete pavement surface texture affects both safety and tyre/road noise characteristics. Exposed Aggregate Concrete (EAC) and porous concrete are the most suitable noise reducing solutions for highways and streets wearing layer even in severe traffic and climate conditions. According to the literature analysis, the algorithm of highways and streets low noise concrete design was created. It is recommended to use the highest quality aggregates with maximum size up to 8 mm, gap-graded gradation, higher amount of cement and lower water/cement ratio. The most important characteristics of EAC are Mean Profile Depth (MPD), Mean Texture Depth (MTD) and profile count, while the most important characteristics of porous concrete are compressive strength, outflow and air void content.

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Pervious Concrete as an Environmental Solution for Pavements: Focus on Key Properties

Cited by 36 publications

References 6 publications

Experimental Investigation of Compressive Strength and Infiltration Rate of Pervious Concrete by Fully Reduction of Sand

Experimental Investigation of Compressive Strength and Infiltration Rate of Pervious Concrete by Fully Reduction of Sand

Properties of pervious concrete with various types and sizes of aggregate

Definition of Concrete and Composite Precast Concrete Pavements Texture

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