Bak, Y. C. (2020) Production of Vaterite Type Calcium Carbonate by Using Oyster Shell Waste with Lysine. Korean Chemical Engineering Research 59(1), 118-126. (In Korean)

Hwang, C. S., Woo, H. S., and Choi, Y. C. (2017) Evaluation of Crack Self-healing Performance in Centrifugal Molding Concrete by Permeability Test. Journal of the Korea Institute for Structural Maintenance and Inspection 32(3), 84-59. (In Korean)

Hwang, J. W., Yang, K. H., Yoon, H. S., and Lee, S. S. (2022) Feasibility Tests of Bacteria-based Self-Healing Pallets to Repair Mortar Cracks. Journal of the Korea Concrete Institute 34(5), 487-496. (In Korean)

Jang, I. D., Son, D. S., Ryu, Y. U., Park, W. J., and Yi, C. K. (2020) Strength and Healing Performance of the Mortar Using Bacterial Pellet as a Self-Healing Material. Journal of the Korean Recycled Construction Resources Institute 8(1), 112-119. (In Korean)

Jansen, D., Wolf, J. J., and Fobbe, N. (2020) The Hydration of nearly Pure Ye’elimite with a Sulfate Carrier in a Stoichiometric Ettringite Binder System Implications for the Hydration Process based on in-situ XRD, 1H-TD-NMR, Pore Solution Analysis, and Thermodynamic Modeling. Cement and Concrete Research 127.

KATS (2017) Methods of Testing Cements - Determination of Strength (KS L ISO 679). Seoul, Korea: Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA). 1-19. (In Korean)

KATS (2021) Standard test method for determination of Aggregate- Crushing-Value (ACV) (KS F 2541). Seoul, Korea: Korea Standard Association (KSA), Korea Agency for Technology and Standards (KATS). 1-4. (In Korean)

KCI (2021) Constant Water Head Permeability Test Method for the Evaluation of Self-healing Performance of Mortar (KCI-CT 114). Seoul, Korea; Korea Concrete Institute (KCI). 1-11. (In Korean)

Lee, K. M., and Park, B. S. (2019) State-of-the Art of Self- Healing Concrete. Magazine of the Korean Concrete Institue 31(2), 10-14. (In Korean)

Lee, J. Y., Yoon, H. S., and Yang, K. H. (2023) Effect of Biodegradable Coating Pellets on Crack Healing Performance of Mortars. Architectural Institute of Korea 39(1), 285-293. (In Korean)

Martínez, J. D., Parra, S. B., Marin, I. C., and Velez, M. B. (2018) Ceramic Light-weight Aggregates Production from Petrochemical Wastes and Carbonates (NaHCO3 and CaCO3) as Expansion Agents. Construction and Building Materials 180, 124-133.

Okyay, T. O., and Rodrigues, D. F. (2015) Biotic and Abiotic Effects on CO2 Sequestration during Microbially-Induced Calcium Carbonate Precipitation. FEMS Microbiology Ecology 91(3), https://doi.org/10.1093/femsec/fiv017.

Park, B. S., and Lee, K. M. (2020) Introduction of Self-Healing Concrete Technology. Jouran of the Korean Society of Civil Engineers 68(6), 46-51. (In Korean)

Park, B. S., Choi, S. C., Hong, G., T., and Kwon, H. (2020) Technology and Practical Application of Self-healing Concrete Incorporating Organic/Inorganic Materials. Magazine of the Korea Concrete Institute 32(5), 10-14. (In Korean)

Son, Y. J., Min, J. H., Hong, M. Y., and Park, W. J. (2020) Bacterial Self-healing Concrete and its Commercialization. Magazine of the Korea Concrete Institute 32(5), 15-20. (In Korean)

Yoon, H. S., Yang, K. H., and Lee, S. S. (2019) Evaluation of Sulfuric Acid Resistance of Biomimetic Coating Mortars for Concrete Surface Protection. Journal of the Korea Concrete Institute 31(1), 61-68. (In Korean)