Title:
Investigation of the Type of Supplementary Cementing Materials on the Durability of Self-Consolidating Concrete
Author(s):
M. Sonebi, S. Stewart, and J. Condon
Publication:
Symposium Paper
Volume:
261
Issue:
Appears on pages(s):
157-172
Keywords:
capillarity; chloride diffusion; ground-granulated blastfurnace slag (GGBS); limestone powder (LSP); pulverized fly ash (PFA); permeability; self-consolidating concrete (SCC).
DOI:
10.14359/51663208
Date:
10/1/2009
Abstract:
Self-consolidating concrete (SCC) is designed to exhibit high deformability
and moderate viscosity to maintain homogeneity and adequate stability to fill the formwork, and encapsulate the reinforcement without any mechanical vibration. Any concrete should have high impermeability and low chloride diffusion to reduce the risk of corrosion and enhance service life. In this study, the effect of the replacement content of cement by supplementary cementing materials (SCM) and fillers. Limestone powder (LSP) replacement of 15% to 30%, ground granulated blastfurnace slag (GGBS) of 40% to 60%, and pulverized fly ash (PFA) of 20% to 35% are evaluated on the durability of SCC of grade C40/50. Fresh concrete properties and development of compressive strength were also evaluated. For the durability performance, all mixtures were tested at 28 days for the air permeability, water permeability, sorptivity, and chloride diffusion which were assessed by Autoclam, and Permit tests. The chloride migration coefficient was dependent on the type SCM and filler in use. The most durable SCC mixture, taking into consideration overall properties, was found to be the one containing 20% PFA, which showed low capillary
water absorption, water and air permeation, and lower ionic diffusivity in comparison to the other mixtures. In general, SCC mixtures containing GGBS exhibited inferior performance regarding air and water permeability and sorptivity, but had satisfactory chloride resistance. SCC with 50% of GGBS demonstrates the lowest chloride diffusivity.