Long-term field performance of pervious concrete pavement

Aleksandra Radlińska; Andrea Welker; Kathryn Greising; Blake Campbell; David Littlewood

doi:10.1155/2012/380795

Long-term field performance of pervious concrete pavement

Aleksandra Radlińska, Andrea Welker, Kathryn Greising, Blake Campbell, David Littlewood

Civil and Environmental Engineering

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

The work described in this paper provides an evaluation of an aged pervious concrete pavement in the Northeastern United States to provide a better understanding of the long-lasting effects of placement techniques as well as the long-term field performance of porous pavement, specifically in areas susceptible to freezing and thawing. Multiple samples were taken from the existing pavement and were examined in terms of porosity and unit weight, compressive and splitting tensile strength, and the depth and degree of clogging. It was concluded that improper placement and curing led to uneven pavement thickness, irregular pore distribution within the pervious concrete, and highly variable strength values across the site, as well as sealed surfaces that prevented infiltration.

Original language	English (US)
Article number	380795
Journal	Advances in Civil Engineering
Volume	2012
DOIs	https://doi.org/10.1155/2012/380795
State	Published - 2012

All Science Journal Classification (ASJC) codes

Civil and Structural Engineering

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10.1155/2012/380795

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doi = "10.1155/2012/380795",

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AU - Radlińska, Aleksandra

AU - Welker, Andrea

AU - Greising, Kathryn

AU - Campbell, Blake

AU - Littlewood, David

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AB - The work described in this paper provides an evaluation of an aged pervious concrete pavement in the Northeastern United States to provide a better understanding of the long-lasting effects of placement techniques as well as the long-term field performance of porous pavement, specifically in areas susceptible to freezing and thawing. Multiple samples were taken from the existing pavement and were examined in terms of porosity and unit weight, compressive and splitting tensile strength, and the depth and degree of clogging. It was concluded that improper placement and curing led to uneven pavement thickness, irregular pore distribution within the pervious concrete, and highly variable strength values across the site, as well as sealed surfaces that prevented infiltration.

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Long-term field performance of pervious concrete pavement

Abstract

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