Title:
Temperature Dependence of Compressive Strength of Conversion-inhibited High Alumina Cement Concrete
Author(s):
Yan Fu, Fian Ding, and James J. Beaudoin
Publication:
Materials Journal
Volume:
94
Issue:
6
Appears on pages(s):
540-545
Keywords:
blast furnace slag; compressive strength; curing; high-alumina
cements; temperature;
DOI:
10.14359/338
Date:
11/1/1997
Abstract:
The strength reduction of HAC concrete due to conversion is one of the major reasons given for limiting the use of HAC in structural members. A conversion-inhibited concrete is introduced in this paper. The effect of curing and exposure conditions (e.g. temperature) on the compressive strength of high alumina cement (HAC) or modified HAC concretes was studied. Ground granulated blast furnace slag (GGBS) and a conversion-preventing additive (CPA) containing natural zeolite or silica fume in combination with sodium sulfate were used to inhibit the strength reduction of the HAC concretes. The results indicated that conversion-inhibited HAC concrete containing a CPA has a one-day compressive strength greater than 55 MPa when cured at 4-5 deg C. The strength of the HAC/CPA concrete is much less affected by the concrete temperature than plain HAC or HAC/GGBS concrete.