Evaluation of Cast-in-Place Splice Regions of Spliced I-Girder Bridges

被引:1
|
作者
Williams, C. S. [1 ]
Moore, A. M. [2 ]
Al-Tarafany, D. [3 ]
Massey, J. B. [4 ]
Bayrak, O. [5 ,6 ]
Jirsa, J. O. [6 ]
Ghannoum, W. M. [7 ]
机构
[1] Purdue Univ, Civil Engn, W Lafayette, IN 47907 USA
[2] Parsons Transportat Grp, Denver, CO USA
[3] Al Nahrain Univ, Dept Civil Engn, Baghdad, Iraq
[4] Walter P Moore, Austin, TX USA
[5] Univ Texas Austin, Dept Civil Environm & Architectural Engn, Austin, TX 78712 USA
[6] Univ Texas Austin, Engn, Austin, TX 78712 USA
[7] Univ Texas San Antonio, Dept Civil & Environm Engn, San Antonio, TX USA
来源
ACI STRUCTURAL JOURNAL | 2019年 / 116卷 / 06期
关键词
closure pour; post-tensioned; prestressed; shear; splice region; spliced girder; SHEAR-STRENGTH; CONTINUITY; BEHAVIOR;
D O I
10.14359/51716804
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
Modern spliced girder bridges consist of precast, pretensioned concrete girders joined together at cast-in-place (CIP) splice regions and made continuous through post-tensioning. Despite the growing use of spliced girders, relatively little research has focused on the behavior of the discontinuity created at the splice regions. An experimental program was conducted to study the strength and behavior of the CIP splice regions of spliced I-girders. The program focused on the shear behavior and shear failure mechanism of spliced girders containing post-tensioned CIP splice regions located within the span lengths of the girders. Two tests were conducted on large-scale spliced girder specimens. Large flexural demands permitted the flexural behaviors of the specimens to be evaluated as well. The test results revealed that the shear behavior of the spliced girder specimens was comparable to that of monolithically cast post-tensioned I-girders.
引用
收藏
页码:181 / 193
页数:13
相关论文
共 50 条
  • [41] Mechanical behaviour of steel-concrete twin I-girder bridges
    Lin, Weiwei
    Lam, Heang
    Yoda, Teruhiko
    IABSE Conference, Kuala Lumpur 2018: Engineering the Developing World - Report, 2018, : 1077 - 1084
  • [42] Field Monitoring of Cross Frames in Composite Steel I-Girder Bridges
    Reichenbach, Matthew C.
    White, Joshua B.
    Park, Sunghyun
    Helwig, Todd A.
    Engelhardt, Michael D.
    Connor, Robert J.
    Grubb, Michael A.
    JOURNAL OF BRIDGE ENGINEERING, 2024, 29 (08)
  • [43] Re-examination of I-girder/pier connection in jointless bridges
    Badie, SS
    Tadros, MK
    Pedersen, KE
    PCI JOURNAL, 2001, 46 (02): : 62 - 74
  • [44] Dynamic response of horizontally curved composite steel I-girder bridges
    Qassim, Huda J.
    Ali, Anis A. Mohamad
    MATERIALS TODAY-PROCEEDINGS, 2021, 42 : 1973 - 1979
  • [45] Effect of thermal loading on the performance of horizontally curved I-girder bridges
    William, G. W.
    Shoukry, S. N.
    McBride, K. C.
    RISK-BASED BRIDGE ENGINEERING, 2019, : 179 - 194
  • [46] Analysis of the Factors that Influence the Maximum Adiabatic Temperatures in I-girder Bridges
    Peris-Sayol, Guillem
    Paya-Zaforteza, Ignacio
    Balasch-Parisi, Sebastia
    Alos-Moya, Jose
    STRUCTURES IN FIRE, 2016, : 743 - 750
  • [47] Shear live-load distribution factors for I-girder bridges
    Barr, P. J.
    Amin, N.
    JOURNAL OF BRIDGE ENGINEERING, 2006, 11 (02) : 197 - 204
  • [48] Construction Stage Seismic Resilience Evaluation of a Continuous Girder Bridge with the Cast-in-Place Cantilever Construction Method
    Li, Hongxu
    Huang, Yong
    Guo, Endong
    TEHNICKI VJESNIK-TECHNICAL GAZETTE, 2023, 30 (04): : 1010 - 1019
  • [49] Construction Stage Seismic Vulnerability Evaluation of a Continuous Girder Bridge with the Cast-in-Place Cantilever Construction Method
    Li, Hongxu
    Huang, Yong
    Guo, Endong
    ADVANCES IN CIVIL ENGINEERING, 2021, 2021
  • [50] Innovative System for Curved Precast Posttensioned Concrete I-Girder and U-Girder Bridges
    Alawneh, M.
    Tadros, M.
    Morcous, G.
    JOURNAL OF BRIDGE ENGINEERING, 2016, 21 (11)
12345