The Effects of Different Cementing Materials and Curing on Concrete Scaling

Digital Library / Journals / Journal of Cement, Concrete and Aggregates (CCA) / Citation Page

Volume 16, Issue 2 (December 1994)

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ISSN: 0149-6123
Page Count: 8

The Effects of Different Cementing Materials and Curing on Concrete Scaling
Afrani, I
Concrete engineer and manager, Ministry of Transportation, Engineering Materials Office, Ontario

Rogers, C
Concrete engineer and manager, Ministry of Transportation, Engineering Materials Office, Ontario

Abstract

As part of a project to determine the long-term durability of concrete made with an alkali-silica reactive coarse aggregate, six concrete mixtures were made with a variety of cementing materials: high-alkali portland cement (HAPC), low-alkali portland cement (LAPC), 25% ground granulated blast-furnace slag (GGBFS), and 50% GGBFS with high-alkali portland cement, 18% Type F fly ash with high-alkali portland cement, and 3.8% silica fume with high-alkali portland cement and 25% GGBFS. Concrete slabs were cast and cured under three conditions: 14 days in the moist room at 23°C, 14 days outdoors covered under wet burlap and plastic sheet, and 28 days in the laboratory air after application of a curing compound. The slabs were tested at an age of 28 days for 50 freeze-thaw cycles in the scaling test using a 3% sodium-chloride (NaCl) solution. The slabs cured outside under wet burlap generally had a high resistance to scaling, with the exception of the mixture with 50% GGBFS. This concrete also exhibited scaling of a full-scale outdoor slab on grade during the first winter. The slabs cured, according to the test method, in the moist curing room generally showed a low resistance to salt scaling. Erratum to this paper appears in 17(1).

Keywords:
concrete, aggregate, freeze-thaw, scaling, deicing, sodium chloride (NaCl), outdoor exposure, fly ash, blast-furnace slag, silica fume

Paper ID: CCA10291J
DOI: 10.1520/CCA10291J
ASTM International is a member of CrossRef.

Author Title The Effects of Different Cementing Materials and Curing on Concrete Scaling Symposium , 0000-00-00 Committee C09

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of Cement, Concrete and Aggregates (CCA) / Citation Page Volume 16, Issue 2 (December 1994) Click here to download this paper now for $25 PDF (368K) View License Agreement ISSN: 0149-6123 Page Count: 8 The Effects of Different Cementing Materials and Curing on Concrete Scaling Afrani, I Concrete engineer and manager, Ministry of Transportation, Engineering Materials Office, Ontario Rogers, C Concrete engineer and manager, Ministry of Transportation, Engineering Materials Office, Ontario Abstract As part of a project to determine the long-term durability of concrete made with an alkali-silica reactive coarse aggregate, six concrete mixtures were made with a variety of cementing materials: high-alkali portland cement (HAPC), low-alkali portland cement (LAPC), 25% ground granulated blast-furnace slag (GGBFS), and 50% GGBFS with high-alkali portland cement, 18% Type F fly ash with high-alkali portland cement, and 3.8% silica fume with high-alkali portland cement and 25% GGBFS. Concrete slabs were cast and cured under three conditions: 14 days in the moist room at 23°C, 14 days outdoors covered under wet burlap and plastic sheet, and 28 days in the laboratory air after application of a curing compound. The slabs were tested at an age of 28 days for 50 freeze-thaw cycles in the scaling test using a 3% sodium-chloride (NaCl) solution. The slabs cured outside under wet burlap generally had a high resistance to scaling, with the exception of the mixture with 50% GGBFS. This concrete also exhibited scaling of a full-scale outdoor slab on grade during the first winter. The slabs cured, according to the test method, in the moist curing room generally showed a low resistance to salt scaling. Erratum to this paper appears in 17(1). Keywords: concrete, aggregate, freeze-thaw, scaling, deicing, sodium chloride (NaCl), outdoor exposure, fly ash, blast-furnace slag, silica fume Paper ID: CCA10291J DOI: 10.1520/CCA10291J ASTM International is a member of CrossRef. Author Title The Effects of Different Cementing Materials and Curing on Concrete Scaling Symposium , 0000-00-00 Committee C09