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      KCI등재 SCIE SCOPUS

      Moment redistribution of continuous composite I-girder with high strength steel

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      https://www.riss.kr/link?id=A104818091

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      다국어 초록 (Multilingual Abstract)

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      The continuous composite I-girder should have a sufficient rotation capacity (or ductility) to redistribute the negative bending moment into an adjacent positive bending moment region. However, it is generally known that the ductility of the high strength steel is smaller than that of conventional steel, and application of high strength steel can cause ductility problems in a negative moment region of the I-girder. In this study, moment redistribution of the continuous composite I-girder with high strength steel was studied, where high strength steel with yield stress of 690 MPa was considered (the ultimate stress of the steel was 800 MPa). The available and required rotation capacity of the continuous composite I-girder with high strength steel was firstly derived based on the stress-strain curve of high strength steel and plastic analysis, respectively. A large scale test and a series of non-linear finite element analysis for the continuous composite I-girder with high strength steel were then conducted to examine the effectiveness of proposed models and to investigate the effect of high strength steel on the inelastic behavior of the negative bending moment region of the continuous composite I-girder with high strength steel. Finally, it can be found that the proposed equations provided good estimation of the requited and available rotation capacity of the continuous composite I-girder with high strength steel.
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      The continuous composite I-girder should have a sufficient rotation capacity (or ductility) to redistribute the negative bending moment into an adjacent positive bending moment region. However, it is generally known that the ductility of the high stre...

      The continuous composite I-girder should have a sufficient rotation capacity (or ductility) to redistribute the negative bending moment into an adjacent positive bending moment region. However, it is generally known that the ductility of the high strength steel is smaller than that of conventional steel, and application of high strength steel can cause ductility problems in a negative moment region of the I-girder. In this study, moment redistribution of the continuous composite I-girder with high strength steel was studied, where high strength steel with yield stress of 690 MPa was considered (the ultimate stress of the steel was 800 MPa). The available and required rotation capacity of the continuous composite I-girder with high strength steel was firstly derived based on the stress-strain curve of high strength steel and plastic analysis, respectively. A large scale test and a series of non-linear finite element analysis for the continuous composite I-girder with high strength steel were then conducted to examine the effectiveness of proposed models and to investigate the effect of high strength steel on the inelastic behavior of the negative bending moment region of the continuous composite I-girder with high strength steel. Finally, it can be found that the proposed equations provided good estimation of the requited and available rotation capacity of the continuous composite I-girder with high strength steel.

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      참고문헌 (Reference)

      1 Kang, S. C., "The evaluation of residual stresses in butt welded and fillet welded specimens with HSB800" 25 (25): 1-7, 2011

      2 Felkel, J. P., "Structural performance and design evaluation of HPS 70W bridge girders" 63 (63): 909-921, 2007

      3 Green, P. S., "Strength and ductility of HPS flexural members" 58 (58): 907-941, 2002

      4 Sause, R., "Strengh and ductility of HPS-100W I-girders in negative flexure" 6 (6): 316-323, 2001

      5 Nie, J., "Steel-concrete composite beams considering shear slip effects" 129 (129): 495-506, 2003

      6 Joo, H. S., "Rotation capacity and optimum bracing point of high strength steel I-girders" 88 : 79-89, 2013

      7 Kemp, A.R., "Required and available rotations in continuous composite beams with semi-rigid connections" 57 (57): 375-400, 2001

      8 Chen, S., "Required and available moment redistribution of continuous steel-concrete composite beams" 64 (64): 167-175, 2008

      9 Guzelbey, I. H., "Prediction of rotation capacity of wide flange beams using neural networks" 62 (62): 950-961, 2006

      10 Cevik, A., "Neuro-fuzzy modeling of rotation capacity of wide flange beams" 38 (38): 5650-5661, 2011

      1 Kang, S. C., "The evaluation of residual stresses in butt welded and fillet welded specimens with HSB800" 25 (25): 1-7, 2011

      2 Felkel, J. P., "Structural performance and design evaluation of HPS 70W bridge girders" 63 (63): 909-921, 2007

      3 Green, P. S., "Strength and ductility of HPS flexural members" 58 (58): 907-941, 2002

      4 Sause, R., "Strengh and ductility of HPS-100W I-girders in negative flexure" 6 (6): 316-323, 2001

      5 Nie, J., "Steel-concrete composite beams considering shear slip effects" 129 (129): 495-506, 2003

      6 Joo, H. S., "Rotation capacity and optimum bracing point of high strength steel I-girders" 88 : 79-89, 2013

      7 Kemp, A.R., "Required and available rotations in continuous composite beams with semi-rigid connections" 57 (57): 375-400, 2001

      8 Chen, S., "Required and available moment redistribution of continuous steel-concrete composite beams" 64 (64): 167-175, 2008

      9 Guzelbey, I. H., "Prediction of rotation capacity of wide flange beams using neural networks" 62 (62): 950-961, 2006

      10 Cevik, A., "Neuro-fuzzy modeling of rotation capacity of wide flange beams" 38 (38): 5650-5661, 2011

      11 Barth, K. E., "Negative bending resistance of HPS70W girders" 53 (53): 1-31, 2007

      12 American Association of State Highway and Transportation Officials, "LRFD Bridge Design Specifications"

      13 Kemp, A. R., "Inelastic local and lateral buckling in design codes" 122 (122): 374-382, 1996

      14 Lay, M.G., "Inelastic beams under moment gradient" ASCE 93 (93): 381-399, 1967

      15 Ricles, J. M., "High-strength steel: implications of material and geometric characteristics on inelastic flexural behavior" 20 (20): 323-335, 1998

      16 Earls, C.J., "High performance steel bridge girder compactness" 58 (58): 859-880, 2002

      17 Cevik, A., "Genetic programming based formulation of rotation capacity of wide flange beams" 63 (63): 884-893, 2007

      18 Belarbi, A., "Constitutive laws of softened concrete in biaxial tension-compression" 92 (92): 562-573, 1995

      19 Kemp, A.R., "Available rotation capacity in steel and composite beams" 69 (69): 88-97, 1991

      20 ABAQUS, "Abaqus Analysis User’s Manual version 6.10"

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      연월일 이력구분 이력상세 등재구분
      2021 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-12-01 평가 등재 탈락 (해외등재 학술지 평가)
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      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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      2016 3.1 2.02 2.67
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      2.37 2.24 0.935 0.37
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