| Sulfate Attack and the Role of Cement Compositions |
| Seung-Tae Lee, Seung-Heun Lee1 |
Department of Civil Engineering, Kunsan National University
1Materials Science and Engineering, Kunsan National University |
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| ABSTRACT |
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This paper presents an experimental study of the sulfate resistance of mortars and pastes exposed to sodium sulfate solutions up to one year. In order to check deterioration modes due to sulfate attack, the sodium sulfate solution was varied at three concentration steps (3,380, 10,140 and 33,800 ppm of $SO_4^{2-}$ ions), and maintained at ambient temperature. The tests include a visual examination, expansion and compressive strength loss measurements as well as x-ray diffraction tests. The experimental data indicated that the use of cement with a low $C_3A$ content and low silicate ratio has a beneficial effect on the sulfate attack of mortars. In contrast, the mortars with a high $C_3A$ content and high silicate ratio became severely degraded due to the formation of ettringite, gypsum and/or thaumasite in the cement matrix. |
| Key words:
Sulfate attack, Cement compositions, Ettringite, Gypsum, Thaumasite |
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