Evaluating the freeze thaw durability of pervious concrete mixed with silica fume

Chun-Hsing Ho, Junyi Shan, Fawaz Almutairi, Fahad Aloqaili

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

This paper presents pervious concrete mixed with silica fume used to evaluate the role played by silica fume in enhancing the performance of the pervious concrete including compressive strength and freezing and thawing resistance. The purpose of this paper is to determine a set of promising pervious mixtures that can be used to withstand the cold climate of Flagstaff, AZ and can be adopted by agencies in Northern Arizona.

Original languageEnglish (US)
Title of host publicationInnovative Materials and Design for Sustainable Transportation Infrastructure - Selected Papers from the International Symposium on Systematic Approaches to Environmental Sustainability in Transportation
PublisherAmerican Society of Civil Engineers (ASCE)
Pages83-92
Number of pages10
ISBN (Print)9780784479278
DOIs
StatePublished - 2015
EventInternational Symposium on Systematic Approaches to Environmental Sustainability in Transportation: Innovative Materials and Design for Sustainable Transportation Infrastructure - Fairbanks, United States
Duration: Aug 2 2015Aug 5 2015

Other

OtherInternational Symposium on Systematic Approaches to Environmental Sustainability in Transportation: Innovative Materials and Design for Sustainable Transportation Infrastructure
CountryUnited States
CityFairbanks
Period8/2/158/5/15

Fingerprint

Silica fume
Durability
Concretes
Thawing
Freezing
Compressive strength

ASJC Scopus subject areas

  • Civil and Structural Engineering

Cite this

Ho, C-H., Shan, J., Almutairi, F., & Aloqaili, F. (2015). Evaluating the freeze thaw durability of pervious concrete mixed with silica fume. In Innovative Materials and Design for Sustainable Transportation Infrastructure - Selected Papers from the International Symposium on Systematic Approaches to Environmental Sustainability in Transportation (pp. 83-92). American Society of Civil Engineers (ASCE). https://doi.org/10.1061/9780784479278.008

Evaluating the freeze thaw durability of pervious concrete mixed with silica fume. / Ho, Chun-Hsing; Shan, Junyi; Almutairi, Fawaz; Aloqaili, Fahad.

Innovative Materials and Design for Sustainable Transportation Infrastructure - Selected Papers from the International Symposium on Systematic Approaches to Environmental Sustainability in Transportation. American Society of Civil Engineers (ASCE), 2015. p. 83-92.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Ho, C-H, Shan, J, Almutairi, F & Aloqaili, F 2015, Evaluating the freeze thaw durability of pervious concrete mixed with silica fume. in Innovative Materials and Design for Sustainable Transportation Infrastructure - Selected Papers from the International Symposium on Systematic Approaches to Environmental Sustainability in Transportation. American Society of Civil Engineers (ASCE), pp. 83-92, International Symposium on Systematic Approaches to Environmental Sustainability in Transportation: Innovative Materials and Design for Sustainable Transportation Infrastructure, Fairbanks, United States, 8/2/15. https://doi.org/10.1061/9780784479278.008
Ho C-H, Shan J, Almutairi F, Aloqaili F. Evaluating the freeze thaw durability of pervious concrete mixed with silica fume. In Innovative Materials and Design for Sustainable Transportation Infrastructure - Selected Papers from the International Symposium on Systematic Approaches to Environmental Sustainability in Transportation. American Society of Civil Engineers (ASCE). 2015. p. 83-92 https://doi.org/10.1061/9780784479278.008
Ho, Chun-Hsing ; Shan, Junyi ; Almutairi, Fawaz ; Aloqaili, Fahad. / Evaluating the freeze thaw durability of pervious concrete mixed with silica fume. Innovative Materials and Design for Sustainable Transportation Infrastructure - Selected Papers from the International Symposium on Systematic Approaches to Environmental Sustainability in Transportation. American Society of Civil Engineers (ASCE), 2015. pp. 83-92
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