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1 
Bilodeau, A. and Malhotra, V. M. (2000) High-volume Fly Ash System. Concrete Solution for Sustainable Development. ACI Materials Journal 97(1), 41-48.Google Search
2 
Bilodeau, A., Sivasundaram, V., Painter, K. E., and Malhotra, V. M. (1994) Durability of Concrete Incorporating High Volumes of Fly Ash from Sources in the USA. Materials Journal 91(1), 3-12.Google Search
3 
Brown, E. N., White, S. R., and Sottos, N. R. (2004) Microcapsule Induced Toughening in a Self-healing Polymer Composite. Journal of Materials Science 39(5), 1703-1710.DOI
4 
Cho, M. S., Song, Y. C., Ryu, G. S., Koh, K. T., Kim, S. W., and Lee, J. H. (2002) Durability Evaluation of Concrete Using Fly Ash, Proceedings of the Korea Concrete Institute Autumn 755-760. (In Korean)Google Search
5 
Choi, E. J, Wang, J., Yoon, J. H., Shim, S. E., Yun, J. H., and Kim, I. (2011) Self-healing Engineering Materials : I. Organic Materials, Clean Techology 17(1), 1-12 (In Korean)Google Search
6 
Frangopol, D. M. and Liu, M. (2007) Maintenance and Manage-ment of Civil Infrastructure based on Condition, Safety, Optimization, and Life-cycle Cost. Structure and infrastructure engineering 3(1), 29-41.DOI
7 
Frangopol, D. M., Lin, K. Y., and Estes, A. C. (1997) Life-cycle Cost Design of Deteriorating Structures. Journal of Structural Engineering 123(10), 1390-1401.DOI
8 
Granger, S., Loukili, A., Pijaudier-Cabot, G., and Chanvillard, G. (2005) Mechanical characterization of the self-healing effect of cracks in Ultra High Performance Concrete (UHPC), In Proceddings Third International Conference on Construction Materials, Performance, Innovations and Structural Implications, ConMat, August, 5, 22-24Google Search
9 
Haddad, R. H. and Bsoul, M. A. (1999) Self-healing of Poly-propylene Fiber Reinforced Concrete: Pozzolan Effect. Civil Engineering Department, Ph.D, Thesis. Jordan University of Science and Technology, Irbid, Jordan.Google Search
10 
Igarashi, S., Kunieda, M., and Hishiwaki, T. (2009) Research Activity of JCI Technical Committee TC-075B: Autogenous Healing in Cementitious Materials. Procededing of 4th International Conference on Construction Materials: Per-formance, Innovations and Structural Implications, Nagoya August 2009, 89-96.Google Search
11 
Jenq, Y. and Shah, S. P. (1985) Two Parameter Fracture Model for Concrete. Journal of Engineering Mechanics 111(10), 1227-1241.DOI
12 
Kim, K. W. and Yun, S. H. (2010) A Case Study of Life Cycle Cost Analysis on Apartment houses and Han-Ok, Journal of the Korea Institute of Building Construction 10(6), 1-6. (In Korean)DOI
13 
Kim, M. H., Kang, D. E., Choi, E. J., Shim, S. E., Yun, J. H., and Kim, I. (2011) Self-healing Engineering Materials : II. Inorganic Materials, The Korean Society of Clean Technology 17(2), 85-96. (In Korean)Google Search
14 
Kim, W. J. and Kim, K. S. (2002), New Concept of Concrete Materials in the IT Era, Magazine of the Korean Concrete Institute 14(3), 28-34. (In Korean)DOI
15 
Kim, W. J., Kim, S. T., Park, S. J., Ghim, S. Y., and Chun, W. Y. (2009) A Study on the Development of Self-Healing Smart Concrete Using Microbial Biomineralization, Journal of the Korean Concrete Institute 21(4), 501-511. (In Korean)Google Search
16 
Kim, W. J., Lee, Y. D., Park, H. G., and Lee, J. S. (2011) Research on the Mock-up for CFT Using 100 MPa High Strength Concrete and 800 MPa High Strength Steel, The Korean Institut of Building Constrction 11(1), 35-37. (In Korean)Google Search
17 
Ko, J. H., Yoo, S. Y., Koo, J. S., Moon, H. J., Kim, J. J., and Park, S. J. (2012) An Experimental Study to Apply for High-Rise Construction according to Various Technical Properties of Ultra High-Strength Concrete, Journal of the Architectural Institute of Korea Structure & Construction 28(1), 85-92. (In Korean)Google Search
18 
Koh, K. T., Park, J. J, Ryu, G. S., and Kim, S. W. (2013) State- of-the-art on Development of Ultra-High Performance Concrete, Journal of the Korean Society of Civil Engineers 61(2), 51-60. (In Korean)Google Search
19 
Koo, B. M., Byun, K. J., and Song, H. W. (2004) A Study on Sensitivity Anlaysis of Life-Cycle Cost of Concrete Bridges, Proceeding of the Korea Concrete Institute Autumn, 795-798. (In Korean)Google Search
20 
Park, J. H., Bang, S. Y., Ahn, T. H., and Shim, K. B. (2015) Field Application of Inorganic Repair Mortars with Self-Healing Capability, Proceeding of the Korea Concrete Institute Autumn, 153-154. (In Korean)Google Search
21 
Park, K. H. and Sun, J. W. (2012) Life Cycle Cost Anlaysis of Concrete Bridges in Maintenance Phase, Proceeding of the Korea Concrete Institute Autumn, 429-430. (In Korean)Google Search
22 
Park, S. J. and Ghim, S. Y. (2012) Applications and Prospects of Calcium Carbonate Forming Bacteria in Construction Materials, Journal of Microbiology and Biotechnology 40(3), 169-179. (In Korean)DOI
23 
Petersson, P. E. (1981) Crack Growth and Development of Fracture Zones in Plain Concrete and Similar Materials. Ph.D. Thesis. Division, Inst.Google Search
24 
Qian, S., Zhou, J., De Rooij, M. R., Schlangen, E., Ye, G., and Van Breugel, K. (2009) Self-healing Behavior of Strain Hardening Cementitious Composites Incorporating Local Waste Materials. Cement and Concrete Composites 31(9), 613-621.DOI
25 
Ryu, G. S., Koh, K. T., and Lee, J. H. (2013) Strength Devel-opment and Durability of Geopolymer Mortar Using the Combined Fly Ash and Blast-Furnace Slag, Journal of the Korean Recycled Construction Resources Institute 1(1), 35-41. (In Korean)DOI
26 
Shah, S. P. (1990) Determination of Fracture Parameters (KIcs and CTODc) of Plain Concrete Using Three-point Bend Tests. Materials and Structures 23(6), 457-460.DOI
27 
Sohn, Y. S., Wang, H., Lee, G. S., and Lee, S. H. (2006) An Application of 150 MPa Ultra High Strength Concrete on a Residential-Commercial Building, Journal of the Korea Concrete Institute 18(5), 59-64. (In Korean)Google Search
28 
TC162-TDF, RILEM. Test and design methods for steel fibre reinforced concrete: Bending test. Mater Struct, 2000, 33: 3-5.DOI
29 
Termkhajornkit, P., Nawa, T., and Kurumisawa, K. (2006) Effect of Water Curing Conditions on the Hydration Degree and Compressive Strengths of Fly Ash-Cement Paste. Cement and Concrete Composites 28(9), 781-789.DOI
30 
Van Breugel, K. (2003) Self-healing en Vloeistofdichtheid, Cement 7, 85-89.Google Search
31 
White, S. R., Sottos, N. R., Geubelle, P. H., and Moore, J. S. (2001) Autonomic Healing of Polymer Composites. Nature, 409 (6822), 794.DOI