Kwon, Y. H. (2013), A Study on Fundamental Properties of Alkali-activated Cement free Concrete using Industrial by-product, A master's thesis in Dong Yang University of Korea 41-48.

Lim, M. K. (2018), A Study on the Strength and Durability Properties of Concrete According to the Fineness of Blast Furnace Slag and Substitutional Rate of Recycled Aggregate, A master's thesis in Dankook University of Korea 12-14.

Yong, J., Shin, J. K., Yoo, J. H. (2010), Investigation on the Ratio and Type of Gypsum for Early Strength Improvement of Blast Furnace Slag Powder, Magazine of RCR, Investigation on the Ratio and Type of Gypsum for Early Strength Improvement of Blast Furnace Slag Powder, Magazine of RCR 5(4) 106-113., 5(4), 106-113.

Park, H. S. (2008), Rheological Properties of Portland Cement -Blast Furnace Slag - Fly Ash Blends, A master's thesis in Dankook University of Korea 5-7.

Kim, H. J., Yang, J. K. (2017), Shrinkage Behavior of Geopolymer Mortar with Expansive Additive.

Song, J. K., Song, K. I., Yang, K. H. (2017), Importance and Characteristics of Geopolymer Concrete Technology, Magazine of RCR, Importance and Characteristics of Geopolymer Concrete Technology, Magazine of RCR 12(1) 8-15., 12(1), 8-15.

Lee, D. W., Na, S. C., Seo, S. S., Yoon, Y. S. (2001), Effect of Plaster on the Properties of Blast-Furnace Slag Cement, Korea Cement Association Cement Symposium 39-46.

Hwang, J. N. (2011), Engineering properties of fly ash based-geopolymer mortars, A master's thesis in Kunsan national University of Korea 11-19.

Koh, K. T., Lee, J. H., Ryu, G. S. (2012), Development of Geopolymer Mortar Based on Fly Ash, Magazine of RCR, Development of Geopolymer Mortar Based on Fly Ash, Magazine of RCR 16(4) 119-126., 16(4), 119-126.

Koh, K. T., Lee, J. H., Ryu, G. S. (2013), Strength Development and Durability of Geopolymer Mortar Using the Combined Fly ash and Blast-Furnace Slag, Magazine of RCR, Strength Development and Durability of Geopolymer Mortar Using the Combined Fly ash and Blast-Furnace Slag, Magazine of RCR 1(1) 35-41., 1(1), 35-41.

Hahm, H. G., Kim, T. W. (2012), Mechanical Properties of the Alkali-Activated Slag Mortar with Gypsum, Journal of the Korea Institute for Structural Maintenance and Inspection, Mechanical Properties of the Alkali-Activated Slag Mortar with Gypsum, Journal of the Korea Institute for Structural Maintenance and Inspection 16(3) 109-116. 10.11112/jksmi.2012.16.3.109, 16(3), 109-116.

Koh, K. T., Lee, J. H., Ryu, G. S. (2010), Properties of the Flowability and Strength of Cementless Alkali-Activated Mortar Using the Mixed Fly Ash and Ground Granulated Blast-Furnace Slag, Magazine of RCR, Properties of the Flowability and Strength of Cementless Alkali-Activated Mortar Using the Mixed Fly Ash and Ground Granulated Blast-Furnace Slag, Magazine of RCR 5(4) 114-121., 5(4), 114-121.

Do, Y. S., Lee, K. P., Lee, S. S., Song, H. Y. (2009), A study on optimum mixing derivation of the environment-friendly high performance geopolymer paste, Journal of the Korea Institute of Building Construction, A study on optimum mixing derivation of the environment-friendly high performance geopolymer paste, Journal of the Korea Institute of Building Construction 9(2) 107-110., 9(2), 107-110.

Kim, S. H., Kim, Y. S. (2016), A Study on the Alkali-Silica Reaction of Binary Blended Geopolymer Mortar, Journal of the Architectural Institute of Korea Structure & Construction, A Study on the Alkali-Silica Reaction of Binary Blended Geopolymer Mortar, Journal of the Architectural Institute of Korea Structure & Construction 32(6) 43-50. 10.5659/JAIK_SC.2016.32.6.43, 32(6), 43-50.

Koh, K. T., Ryu, G. S., Lee, J. H., Kang, H. J., Jeon, Y. S. (2011), Flowability and Compressive Strength of CementlessAlkali-Activated Mortar Using Blast Furnace Slag, Magazine of RCR, Flowability and Compressive Strength of CementlessAlkali-Activated Mortar Using Blast Furnace Slag, Magazine of RCR 6(1) 63-71., 6(1), 63-71.