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2021 Vol.31, Issue 1 Preview Page

Research Article

March 2021. pp. 67-81
ACI Committee 440, 2017, Guide for the design and construction of externally bonded FRP systems for strengthening concrete structures (ACI 440.2R-17), American Concrete Institute, 110.
ASTM D3039, 2007, Standard test method for tensile properties of polymer matrix composite materials, American Society for Testing Materials (ASTM International), 13.
Banthia, N., Sappakittipakorn, M., 2007, Toughness enhancement in steel fiber reinforced concrete through fiber hybridization, Cement and Concrete Research, 37(9), 1366-1372. 10.1016/j.cemconres.2007.05.005
Bernal, S.A., Mejia de, G.R., Provis, J.L., 2012, Engineering and durability properties of concretes based on alkali-activated granulated blast furnace slag/metakaolin blends, Construction Building Materials, 33, 99-108. 10.1016/j.conbuildmat.2012.01.017
Brameshuber, W., 2006, Textile reinforced concrete, State-of-the-Art Report of RILEM Technical Committee 201-TRC, RILEM Publications, Bagneux, France.
Cho, W.J., Kim, H.S., Ann, K.I., 2020, A study on the hydration characteristics and fundamental properties of ternary blended cement using ferronickel slag, Journal of the Korean Recycled Construction Resources Institute, 8(1), 39-48 (in Korean with English abstract). 10.4334/JKCI.2020.32.1.027
Choi, J.J., Lee, T.H., Park, B.J., Rho, K.G., Choi, S.M., 2019, Experimental study of seismic performance improvement of pilotis RC column strengthened with FRP, Journal of the Korean Society for Advanced Composite Structures, 10(1), 17-25 (in Korean with English abstract). 10.11004/kosacs.2019.10.1.017
Choi, Y.S., 2016, An experimental study on the engineering properties of self-healing eco-friendly grout material, Docter Thesis, Myongji University, 1-110.
Gao, J., Sun, W., Morino, K., 1997, Mechanical properties of steel fiber-reinforced, high-strength, lightweight concrete, Cement and Concrete Composites, 19(4), 307-313. 10.1016/S0958-9465(97)00023-1
Guerrieri, M., Sanjayan, J.G., 2009, Behavior of combined fly ash/slag-based geopolymers when exposed to high temperatures, Fire and Materials, 34(4), 163-175. 10.1002/fam.1014
Han, C.G., Kim, S.H, Son, H.J., 2009, Engineering characteristics analysis of high strength concrete followed in replacement ratio increase in blast furnace slag, Journal of the Korean Recycled Construction Resources Institute, 4(3), 62-68 (in Korean with English abstract).
Hur, J.H., Kim, J.H., Park, W.G.I., Kim, K.H., 2013, Seismic performance of seismic retrofitted column by various type of FRP, Journal of the Korean Society for Railway, 2013(5), 1378-1383.
Hyeon, H.J., 2017, An experimental study on the properties of the cementless lightweight aerated concrete with blast furnace slag, Master Thesis, Konkuk University, 1-46.
Jang, H.O., Ji, N.O., 2013, An experimental study on the mixing of normal strength and high fluidity concrete using ground granulated blast furnace slag, Journal of the Architectural Institute of Korea Structure & Construction, 29(6), 81-88 (in Korean with English abstract).
Jeong, J.Y., Jang, S.Y., Choi, Y.C., Jung, S.H., Kim, S.I., 2015, Effects of replacement ratio and fineness of GGBFS on the hydration and pozzolanic reaction of high-strength high-volume GGBFS blended cement pastes, Journal of the Korea Concrete Institute, 27(2), 115-125 (in Korean with English abstract). 10.4334/JKCI.2015.27.2.115
Jo, S.G., 2013, An experimental study on the workability and engineering properties of concrete using ground granulated blast furnace slag, The Society of Convergence Knowledge Transactions, 1(1), 43-50 (in Korean with English abstract).
Kang, S.T., Choi, J.I., Koh, K.T., Lee, K.S., Lee, B.Y., 2016, Hybrid effects of steel fiber and microfiber on the tensile behavior of ultra-high performance concrete, Composite Structures, 145, 37-42. 10.1016/j.compstruct.2016.02.075
Kim, H.C., 2017, A Study on the development of a grouting material containing blast furnace slag and carbon fiber, Doctor Thesis, Chosun University, 1-102.
Kim, J.H., Han, M.C., Han, C.G., 2014, Strength development of the concrete incorporating blast furnace slag and recycled aggregate as alkali activator, Journal of the Korean Recycled Construction Resources Institute, 2(2), 107-114 (in Korean with English abstract). 10.14190/JRCR.2014.2.2.107
Kim, W.K., 2012, Current states and prospect of utilization of blast furnace slag, Korean Institute of Architecture, 56(8), 14-17.
Kim, Y.H., Han, C.G., Lee, H.J., 2013, Effect of recycled fine aggregate powder and OPC on the strength gain properties of mortar using blast furnace slag powder and natural aggregates, Journal of the Architectural Institute of Korea Structure & Construction, 29(3), 81-88 (in Korean with English abstract).
Kim, Y.W., 2010, Containing aramid fiber reinforced concrete research, Master Thesis, Kyungpook National University, 1-45.
Lee, C.H., Eo, S.H., 2020, Compressive strength and durability evaluation by freezing and thawing test of repaired reinforced concrete columns, Journal of the Korea Contents Association, 20(12), 529-536 (in Korean with English abstract).
Marjanović, N., Komljenovic, M., Bascarevic, Z., Nikolic, V., Petrovic, R., 2015, Physical-mechanical and microstructural properties of alkali-activated fly ash-blast furnace slag blends, Ceramic International, 41(1), 1421-1435. 10.1016/j.ceramint.2014.09.075
Mechtcherine, V., 2013, Novel cement-based composites for the strengthening and repair of concrete structures, Construction and Building Materials, 41, 365-373. 10.1016/j.conbuildmat.2012.11.117
Nam, J.S., Ryu, J.C., Kim, K.Y., Kim, H.S., Jeon, J.K., 2014, Improvement of the strength properties and impact resistance of the cement composite materials by the use of surface modification of the aramid fibers, Journal of the Korea Institute for Structural Maintenance and Inspection, 19(1), 100-108 (in Korean with English abstract). 10.11112/jksmi.2015.19.1.100
Nath, S.K., Kumar, S., 2013, Influence of iron making slags on strength and microstructure of fly ash geopolymer, Construction Building Materials, 38, 924-930. 10.1016/j.conbuildmat.2012.09.070
Oh, J.E., Monteiro, P.J.M., Jun, S.S., Choi, S., Clark, S.M., 2010, The evolution of strength and crystalline phases for alkali-activated ground blast furnace slag and fly ash based geopolymers, Cement Concrete Research, 40(2), 189-196. 10.1016/j.cemconres.2009.10.010
Park, K.H., 2015, Evaluation of applicability of environment friendly biogrouting methods in loose frictional soils, Doctor Thesis, Chosun University, 1-167.
Park, T.B., 2017, Physio-chemical characteristics of slag based zero-cement grout, Master Thesis, Myongji University, 1-45.
Romualdi, J.P., Batson, G.B., 1963, Mechanics of crack arrest in concrete, Journal of the Engineering Mechanics Division, 89(3), 147-168. 10.1061/JMCEA3.0000381
Seo, H., Park, K.H., Kim, C.J., Kim, H.C., Kim, D.H., 2019, Development of reinforcement grout materials using blast furnace slag powder and aramid fiber, Journal of the Korean Geosynthetics Society, 18(1), 67-77 (in Korean with English abstract).
Seo, M.G., Park, S.J., 2010, Manufacturing method of carbon fibers and their application fields, Polymer Science and Technology, 21(2), 130-140.
Shah, S.P., 1984, Fiber reinforced concrete, Handbook of Structural Concrete, 1, 1-14.
Shah, S.P., Rangan, B.V., 1971, Fiber reinforced concrete properties, ACI Journal, 68(2), 126-135. 10.14359/11299
Yang, Y.H., 2017, Evaluation of reinforcement effect of grouting using aramid fiber, Master Thesis, Chosun University, 1-65.
Yoo, S.J., Yuan, T.F., Hong, S.H., Yoon, Y.S., 2020, Evaluation of structural performance of concrete beams strengthened with carbon fiber sheets and no-slump concrete, Journal of the Korean Society of Hazard Mitigation, 20(4), 185-193 (in Korean with English abstract). 10.9798/KOSHAM.2020.20.4.185
  • Publisher :Korean Society of Engineering Geology
  • Publisher(Ko) :대한지질공학회
  • Journal Title :The Journal of Engineering Geology
  • Journal Title(Ko) :지질공학
  • Volume : 31
  • No :1
  • Pages :67-81
  • Received Date :2021. 02. 17
  • Accepted Date : 2021. 03. 12