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      KCI등재후보 SCIE SCOPUS

      A comparative study on bond of different grade reinforcing steels in concrete under accelerated corrosion

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      https://www.riss.kr/link?id=A104818618

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      다국어 초록 (Multilingual Abstract)

      Corrosion is important reason for the deterioration of the bond between reinforcing steel and the surrounding concrete. Corrosion of the steel mainly depends on its microstructure. Smooth S220, ribbed S420 and S500 grade reinforcing steels were used i...

      Corrosion is important reason for the deterioration of the bond between reinforcing steel and the surrounding concrete. Corrosion of the steel mainly depends on its microstructure. Smooth S220, ribbed S420 and S500 grade reinforcing steels were used in the experiments. Samples were subjected to accelerated corrosion. Pullout tests were carried out to evaluate the effects of corrosion on bond strength of the specimens. S500 grade steel which has tempered martensite microstructure showed lower corrosion rate in concrete than S220 and S420 steels which have ferrite+perlite microstructure. S500 grade steel showed highest bond strength among the other steel grades in concrete. Bond strength between reinforcing steel and concrete increased with increase in the strength of steel and concrete. It also depends on whether reinforcing bar is ribbed or not.

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      참고문헌 (Reference)

      1 "Testıng hardened concrete-Part 3:Compressıve strength of test specimens"

      2 "Testing hardened concrete-Part 5: Flexural strength of test specimens"

      3 Apostolopoulos, C. A., "Tensile behavior of corroded reinforcing steel bars BSt 500s" 20 (20): 782-789, 2006

      4 Simon, P., "Tempcore : a new process for the production of high quality reinforcing bars" 5 : 5-57, 1984

      5 Nikolaou, J., "Microstructures and mechanical properties after heating of reinforcing 500 MPa class weldable steels produced by various processes(Tempcore, microalloyed with vanadium and work-hardened)" 18 (18): 243-254, 2004

      6 Sarkar, P. P., "Microstructural influence on the electrochemical corrosion behaviour of dual-phase steels in 3. 5% NaCl solution" 59 (59): 2488-2491, 2005

      7 Apostolopoulos, C. A., "Mechanical properties of reinforcing steel and fatigue behavior in corrosive environment" 16 (16): 559-566, 2007

      8 Trejo, D., "Mechanical properties and corrosion susceptibility of dual-phase steel in concrete" 24 (24): 1245-1254, 1994

      9 Fu, X., "Improving the bond strength between steel rebar and concrete by oxidation treatments of the rebar" 26 (26): 1499-1503, 1996

      10 Zheng, H., "Fatigue properties of reinforcing steel produced by tempcore process" 11 (11): 158-165, 1999

      1 "Testıng hardened concrete-Part 3:Compressıve strength of test specimens"

      2 "Testing hardened concrete-Part 5: Flexural strength of test specimens"

      3 Apostolopoulos, C. A., "Tensile behavior of corroded reinforcing steel bars BSt 500s" 20 (20): 782-789, 2006

      4 Simon, P., "Tempcore : a new process for the production of high quality reinforcing bars" 5 : 5-57, 1984

      5 Nikolaou, J., "Microstructures and mechanical properties after heating of reinforcing 500 MPa class weldable steels produced by various processes(Tempcore, microalloyed with vanadium and work-hardened)" 18 (18): 243-254, 2004

      6 Sarkar, P. P., "Microstructural influence on the electrochemical corrosion behaviour of dual-phase steels in 3. 5% NaCl solution" 59 (59): 2488-2491, 2005

      7 Apostolopoulos, C. A., "Mechanical properties of reinforcing steel and fatigue behavior in corrosive environment" 16 (16): 559-566, 2007

      8 Trejo, D., "Mechanical properties and corrosion susceptibility of dual-phase steel in concrete" 24 (24): 1245-1254, 1994

      9 Fu, X., "Improving the bond strength between steel rebar and concrete by oxidation treatments of the rebar" 26 (26): 1499-1503, 1996

      10 Zheng, H., "Fatigue properties of reinforcing steel produced by tempcore process" 11 (11): 158-165, 1999

      11 Lee, H., "Evaluation of the bond properties between concrete and reinforcement as a function of the degree of reinforcement corrosion" 32 (32): 1313-1318, 2002

      12 Keleştemur, O., "Effect of various dual-phase heat treatments on the corrosion behaviour of reinforcing steel used in the reinforced concrete structures" 23 (23): 78-84, 2009

      13 Cheng, A, "Effect of rebar coating on corrosion resistance and bond strength of reinforced concrete" 19 (19): 404-412, 2005

      14 Bakkaloğlu, A., "Effect of processing parameters on the microstructure and properties of an Nb microalloyed steel" 56 (56): 263-272, 2002

      15 Al-Negheimish, A.I., "Effect of manufacturing process and rusting on the bond behaviour of deformed bars in concrete" 26 (26): 735-742, 2004

      16 Larrard, F., "Effect of bar diameter on the bond strength of passive reinforcement in high performance concrete" 90 : 333-339, 1993

      17 Capozucca, R., "Damage to reinforced concrete due to reinforcement corrosion" 9 (9): 295-303, 1995

      18 Andrade, C., "Corrosion rate evolution in concrete structures exposed to the atmosphere" 24 (24): 55-64, 2002

      19 Ismail, M., "Corrosion performance of dualphase steel embedded in concrete" 35 : 81-89, 2010

      20 Batis, G., "Corrosion of steel reinforcement due to atmospheric pollution" 27 (27): 269-275, 2005

      21 Fang C., "Corrosion influence on bond in reinforced concrete" 34 (34): 2159-2167, 2004

      22 Keleştemur, O., "Corrosion behaviour of tempered dual-phase steel embedded in concrete" 16 (16): 43-50, 2009

      23 Revie, R.W., "Corrosion and Corrosion Control; An Introduction to Corrosion Science and Engineering" John Wiley & Sons 142-143, 2008

      24 Jaffer, S. J., "Chloride-induced corrosion products of steel in crackedconcrete subjected to different loading conditions" 39 (39): 116-125, 2009

      25 Montemor, M. F., "Chloride-induced corrosion on reinforcing steel : from the fundamentals to the monitoring techniques" 25 (25): 491-502, 2003

      26 Ramirez-Arteaga, A. M., "An electrochemical study of the corrosion behavior of a dual phase steel in 0. 5m H2SO4" 5 : 1786-1798, 2010

      27 Çetinel, H., "A finite element based prediction of the microstructural evolution of steels subjected to the Tempcore process" 32 (32): 339-347, 2000

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      연월일 이력구분 이력상세 등재구분
      2021 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-12-01 평가 등재 탈락 (해외등재 학술지 평가)
      2013-10-01 평가 SCOPUS 등재 (등재유지) KCI등재
      2011-01-01 평가 등재후보학술지 유지 (기타) KCI등재후보
      2007-04-09 학회명변경 한글명 : (사)국제구조공학회 -> 국제구조공학회 KCI등재후보
      2005-09-23 학술지명변경 한글명 : 강합성 구조물에 대한 국제저널 -> Steel and Composite Structures, An International Journal KCI등재후보
      2005-09-22 학술지등록 한글명 : 강합성 구조물에 대한 국제저널
      외국어명 : Steel and Composite Structures, An International Journal      		 KCI등재후보
      2005-06-16 학회명변경 영문명 : Ternational Association Of Structural Engineering And Mechanics -> International Association of Structural Engineering And Mechanics KCI등재후보
      2002-01-01 평가 SCIE 등재 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 3.1 2.02 2.67
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      2.37 2.24 0.935 0.37
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