Title:
Prediction of Long-Term Corrosion Resistance of Plain and Blended Cement concretes
Author(s):
Omar Saeed Baghabra Al-Amoudi, Rasheeduzzafar, Mohammed Maslehuddin, and Abdulaziz Ibrahim Al-Mana
Publication:
Materials Journal
Volume:
90
Issue:
6
Appears on pages(s):
564-570
Keywords:
blended cements; compressive strength; permeability; corrosion resistance; plain cements; porosity; pulse velocity; statistical analysis; Materials Research
DOI:
10.14359/4430
Date:
11/1/1993
Abstract:
This investigation was carried out to evaluate the relationship between the early-age properties, such as compressive strength, pulse velocity, porosity, and permeability, and the long-term corrosion resistance of plain, fly ash, pozzolanic, and blast furnace slag cement concretes. Results of compressive strength, pulse velocity, porosity, and permeability tests were evaluated up to 180 days of water-curing. The long-term corrosion resistance was evaluated after 7 years of immersion in a 5 percent sodium chloride solution using electrochemical techniques. The data developed were statistically analyzed to establish relationships between the long-term corrosion rate and the early-age properties of plain and blended cement concretes. The results of regression analyses indicate excellent correlation between permeability and corrosion rate, and porosity and corrosion rate for both plain and blended cement concretes.