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1.Melo Neto, A. A., Cincotto, M. A. and Repette, W., “Drying and Autogenous Shrinkage of Pastes and Mortars with Activated Slag Cement”, Cement and Concrete Research, Vol.38, 2008, pp. 565-574.DOI
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2.Atis, C. D., Bilim, Ҫ, Celik, Ö, Karahan, O., “Influence of Activator on the Strength and Drying Shrinkage of Alkali- activated Slag Mortar”, Construction and Building Materials, Vol.23, 2009, pp. 548-555.DOI
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8.Bilim, C., Karahan, O., Atis, C. D. and Ilkentapar, S., “Influence of Admixtures on the Properties of Alkali-activated Slag Mortars Subjected to Different Curing Conditions”, Materials and Design, Vol.44, 2013, pp. 540-547.DOI
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9.Chang, J. J., Yeih, W. and Hung, C. C., “Effects of Gypsum and Phosphoric Acid on the Properties of Sodium Silicate- based Alkali-activated Slag Pastes”, Cement & Concrete Composites, Vol.27, 2007, pp. 85-91.DOI
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10.Chi, M., “Effects of Dosage of Alkali-activated Solution and Curing Conditions on the Properties and Durability of Alkali- Activated Slag Concrete”, Construction and Building Materials, Vol.35, 2012, pp. 240-245.DOI
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11.Schutter, G. E. and Poppe, A. M., “Quantification of the Water Demand of Sand in Mortar”, Construction and Building Materials, Vol.18, 2004, pp. 517-521.DOI
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12.Appa Rao, G., “Influence of Silica Fume on Long-term Strength of Mortars Containing Different Aggregate Fractions”, Cement and Concrete Research, Vol.31, 2001, pp. 7-12.DOI
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13.Shen, S. and Yu, H., “Characterize Packing of Aggregate Particles for Paving materials: Particles Size Impact”, Construction and Building Materials, Vol.25, 2011, pp. 1362-1368.DOI
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14.Lim, S. K., Tan, C. S., Chen, K. P., Lee, M. L. and Lee, W. P., “Effect of Different Sand Grading on Strength Properties of Cement Grout”, Construction and Building Materials, Vol.38, 2013, pp. 348-355.DOI
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15.Haach, V. G., Vasconcelos, G. and Lourenco, P. B., “Influence of Aggregate Grading and Water/Cement Ratio in Workability and Hardened Properties of Martars”, Construction and Building Materials, Vol.25, 2011, pp. 2980-2987.DOI
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