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NTIS 바로가기Journal of the Korean Recycled Construction Resources Institute = 한국건설순환자원학회 논문집, v.10 no.4, 2022년, pp.386 - 394
김동규 (한국건설기술연구원 지반연구본부) , 이승태 (군산대학교 토목공학과)
In this study, the mechanical properties and frost resistance of concrete with steel and nylon fibers were experimentally investigated. Both of OPC concrete with 100 % ordinary portland cement and SGC concrete replaced with 50 % GGBFS were manufactured to evaluate effects of fibers to the performanc...
Attari, A., McNally, C., Richardson, M.G. (2016). A combined SEM?- calorimetric approach for assessing hydration and porosity?development in GGBFS concrete, Cement and Concrete?Composites, 68, 46-56.
Cao, Q., Gao, Q., Gao, R., Jia, J. (2018). Chloride penetration?resistance and frost resistance of fiber reinforced expansive?self-consolidating concrete, Construction and Building?Materials 158, 719-727.
Feo, L., Ascione, F., Penna, R., Lau, D., Lamberti, M. (2020). An?experimental investigation on freezing and thawing durability?of high performance fiber reinforced concrete (HPFRC),?Composites and Structures, 234, 111673.
Gastaldini, A.L.G., Isaia, G.C., Hoppe, T.F., Missau, F., Saciloto,?A.P. (2009). Influence of the use of rice husk ash on the?electrical resistivity of concrete: A technical and economic?feasibility study, Construction and Building Materials, 23(11),?3411-3419.
Huang, W.H. (2001). Improving the properties of cement-fly ash?grout using fiber and superplasticizer, Cement and Concrete?Research, 31(7), 1033-1041.
Karahan, O., Atis, C.D. (2011). The durability properties of?polyproylene fiber reinforced fly ash concrete, Materials and?Design, 32(2), 1044-1049.
Kim, D.G. Yu, K.M., Lee, S.T. (2022). Performance of?high-flowable retaining wall material using ground granulated?blast-furnace slag and steel fiber, Journal of the Korean?Geo-Environmental Society, 23(11), 5-11 [in Korean].
Kim, S.D., Moon, D.Y. (2013). Effect of steel fiber distribution on?steel fiber-reinforced concrete on surface electrical resistivity,?Journal of the Korea Institute for Structural Maintenance and?Inspection, 17(1), 106-113 [In Korean].
Lee, S.T. (2019). Effect of nylon fiber addition on the?performance of recycled aggregate concrete, Applied?Science, 9(4), 767.
Miao, C., Mu, R., Tian, Q., Sun, W. (2002). Effect of sulfate?solution on the frost resistance of concrete with and without?steel fiber reinforcement, Cement and Concrete Research,?32(1), 31-34.
Nik, A.S., Omran, O.L. (2013). Estimation of compressive strength?of self-compacted concrete with fibers consisting nano-SiO2?using ultrasonic pulse velocity, Construction and Building?Materials 44, 654-662.
Ozbay, E., Karahan, O., Lachemi, M., Hossain, K.M.A., Atis, C.D.?(2013), Dual effectiveness of freezing-thawing and sulfate?attack on high-volume slag-incorporated ECC, Composites?Part B: Engineering, 45(1), 1384-1390.
Park, J.S., Ahan, K.H., You, Y.J., Lee, J.S. (2022). Evaluating?the freeze-thaw damage of concrete with respect to water?to cement ratio using surface rebound value, Journal of?Recycled Construction Resources Institute, 10(2), 143-151?[In Korean].
Ramezanianpour, A.A., Pilvar, A., Mahdikhani, M., Moodi, F.?(2011). Practical evaluation of relationship between concrete?resistivity, water penetration, rapid chloride penetration and?compressive strength, Construction and Building Materials,?25(5), 2472-2479.
Soylev, T.A., Ozturan, T. (2014). Durability, physical and?mechanical properties of fiber reinforced concretes at?low-volume fraction, Construction and Building Materials, 73,?67-75.
Wang, J., Niu, D. (2016). Influence of freeze-thaw cycles and?sulfate corrosion resistance on shotcrete with and without?steel fiber, Construction and Building Materials 122, 628-636.
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