Advanced SearchSearch Tips
Sulfate Resistance of Cement Matrix Containing Limestone Powder
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Sulfate Resistance of Cement Matrix Containing Limestone Powder
Moon Han-Young; Jung Ho-Seop; Lee Seung-Tae; Kim Jong-Pil;
  PDF(new window)
In order to improve the performance of concrete, generally, modern cements often incorporate several mineral admixtures. In this study, the experimental included the flow value, air content of mortar containing limestone powder and length change and compressive strength of mortar specimen immersed in sulfate solutions. From the experimental results, the limestone powder cement matrices improved the physical properties and sulfate resistance of cement matrices at replacement ratio of limestone powder. The replacement ratio of limestone powder was significantly deteriorated in sodium sulfate solution. Irrespective of fineness levels of limestone powder, length change and SDF of mortar specimens with only replacement was much superior to the other replacements.
limestone powder;sulfate attack;length change;strength deterioration factor(SDF);
 Cited by
화재시 I-형강 보의 국부좌굴과 최적 폭-두께비,강문명;윤영묵;강성덕;;

한국강구조학회 논문집, 2005. vol.17. 4, pp.491-498
Al-Amoudi, O. S. B., Rasheeduzzafar, Maslehuddin, M., and Abduljauwad, S. N., 'Influence of chloride ions on sulfate deterioration in plain and blended cement,' Magazine of Concrete Research, Vol.A6, No.167, 1994, pp.l13-123

Bonen, D., 'A microstructural study of the effect produced by magnesium sulfate on plain and silica fume-bearing portland cement mortars,' Cement and Concrete Research, Vol.23, 1993, pp.541-553 crossref(new window)

Brown, P. W., 'An evaluation of sulfate resistance of cements in a controlled environment,' Cement and Concrete Research, Vol. 11, 1981, pp.719-727 crossref(new window)

Cho, B. Y., Cho, J. D., Jun, C. K., Jang, G. Y., and Han, C. G., 'The properties of high flowing concrete with the content of limestone grain,' Proceedings of Korea Architecture Institute, Vol.19, No.1, 1999, pp.355-360

Cohen, M. D., and Mather, B., 'Sulfate attack on concrete-Research needs,' ACI Materials Journal, Vol.88-M9, 1991, pp.62-69

Hartshorn, S. A., Sharp, J. H., and Swamy, R. N., 'The thaumasite form of sulfate attack in portland-limestone cement mortars stored in magnesium sulfate solution,' Cement and Concrete Composites, Vol.24, 2002, pp.351-359 crossref(new window)

Irassar, F. and Batic, F., 'Effect of low calcium fly ash on sulfate resistance of opc cement,' Cement and Concrete Research, Vol.19, No.2, 1989, pp.194-202 crossref(new window)

Lee, S. T., 'Evaluation on the deterioration and durability of cement matrix subjected to seawater attack,' Ph. D. Dissertation, Hanyang Univ., Korea. 2003

Mehta, P. K., 'Durability of Concrete - Fifty Years of Progress?,' ACI SP 126, American Concrete Institute, Detroit, 1991, pp.1-31

Moon, H. Y., Lee, S. T., and Kim, H. S., 'Selection of effective Korean cement for sulfate environment,' Proceedings of the International Conference on Concrete Under Severe Condition, CONSEC'01, Vancouver, Canada, 2001, pp.349-356

Nehdi, M., Mindess, S., and Aitcin, P. C., 'Optimization of high strength limestone filler cement mortars,' Cement and Concrete Research, Vol.26, No.6, 1996, pp.883-893 crossref(new window)

Rasheeduzzafar, Dakhil F. H., Al-Gahtani, A. S., Al-Saadoun, S. S., and Maher, A. B., 'Influence of cement composition on corrosion of reinforcement and sulfate resistance of concrete,' ACI Materials Journal, Vol.87, No.2, 1990, pp.114-122

Turker, F., Akoz, F., Koral, S., and Yuzer, N., 'Effects of magnesium sulfate concentration on the sulfate resistance of mortars with and without silica fume,' Cement and Concrete research, Vol.27, 1997, pp.205-214 crossref(new window)