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References

1 
Al-Amoudi O. S. B., 1998, Sulfate Attack and Reinforcement Corrosion in Plain and Blended Cements Exposed to Sulfate Environments, Building and Environment, Vol. 33, No. 1, pp. 53-61DOI
2 
ASTM C1012/C1012M-18 , 2018, tandard Test Method for Length Change of Hydraulic-Cement Mortars Exposed to a Sulfate Solution, West Conshohocken. PA; ASTM International, pp. 1-8Google Search
3 
Bassuoni M. T., Nehdi M. L., 2009, Durability of Self- Consolidating Concrete to Different Exposure Regimes of Sodium Sulphate Attack, Materials and Structures, Vol. 42, No. 8, pp. 1039-1057DOI
4 
Carmona-Quiroga P., Blanco-Varela M., 2014, Use of Barium Carbonate to Inhibit Sulfate Attack in Cement, Journal of the Cement and Concrete Research, Vol. 69, pp. 96-104DOI
5 
Carmona-Quiroga P., Martinex-Ramirez S., Blanco-Varela M., 2011, Thermodynamic Stability of Hydrated Portland Cement Phases in the Presence of Barium Carbonates, Proceedings of the 13th International Congress on the Chemistry of Cement MadridGoogle Search
6 
Haynes H., O’Neill R., Neff M., Mehta P. K., 2008, Salt Weathering Distress on Concrete Exposed to Sodium Sulphate Environment, ACI Materials Journal, Vol. 105, No. 1, pp. 35-43Google Search
7 
Jamshidi E., Ebrahim H. A., 2008, A New Clean Process for Barium Carbonate Preparation by Barite Reduction with Methane, Chemical Engineering and Processing: Process Intensification, Vol. 47, No. 9-10, pp. 1567-1577DOI
8 
Kang W. D., 2012, A Study on Development of Repair System for Sewage Structures Using Calcium Aluminate Cement (CAC), Ph D Thesis Dongyang University(In KoreanGoogle Search
9 
Karatasios I., Kilikoglou V. Theoulakis P. Colston B., Watt D., 2008, Sulphate Resistance of Lime-Based Barium Mortars, Journal of the Cement and Concrete Composites, Vol. 30, pp. 815-821DOI
10 
KATS , 2016, Methods of Testing Cements - Determination of Strength (KS L ISO 679, Seoul Korea Korea Agency for Technology and Standards (KATS) Korea Standard Association (KSA)(In Korean)Google Search
11 
Lee S. T., 2012, Evaluation on the Sulfate Attack Resistance of Cement Mortars with Different Exposure Conditions, KSCE Journal of Civil and Environmental Engineering Research, Vol. 32, No. 6, pp. 427-435DOI
12 
Mangat P. S., Khatib J. M., 1995, Influence of Fly Ash Silica Fume and Slag on Sulfate Resistance of Concrete, ACI Materials Journal, Vol. 92, No. 5, pp. 542-552Google Search
13 
Najjar M. F., Nehdi M. L., Soliman A. M., Azabi T. M., 2017, Damage Mechanisms of Two-Stage Concrete Exposed to Chemical and Physical Sulfate Attack, Construction and Building Materials, Vol. 137, pp. 141-152DOI
14 
Neville A. M., 2012, Properties of Concrete, Fourth Edition John Wiley & Sons, pp. 91-102Google Search
15 
Scherer G. W., 2004, Stress from Crystallization of Salt, Cement and Concrete Research, Vol. 34, No. 9, pp. 1613-1624DOI
16 
Shanahan N., Zayed A., 2007, Cement Composition and Sulfate Attack Part 1, Cement and Concrete Research, Vol. 37, No. 4, pp. 618-623DOI
17 
Sisomphon K., Franke L., 2007, Carbonation Rates of Concrete Containing High Volume of Pozzolanic Materials, Cement and Concrete Research, Vol. 37, No. 12, pp. 1647-1653DOI
18 
Utton C. A., Gallucci E., Milestione N. B., 2011, Interaction between BaC$O_{3}$ and OPC/BFS Composite Cement at 20 °C and 60 °C, Journal of the Cement and Concrete Research, Vol. 41, pp. 236-243DOI
19 
Whittaker M., Black L., 2015, Current Knowledge of External Sulfate Attack, Advances in Cement ResearchDOI
20 
Zezulová A., Stanêk T., Opravil T., 2016, The Influence of Barium Sulphate and Barium Carbonate on the Portland Cement, ICEBMP Procedia Engineering, Vol. 151, pp. 42-49DOI