2014
DOI: 10.15554/pcij.03012014.96.108
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Comparison of details for controlling end-region cracks in precast, pretensioned concrete I-girders

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Cited by 8 publications
(3 citation statements)
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“…Although anchoring through the adhesion of tendons has a positive effect on the distribution of stresses, stress accumulations still occur at the ends of the elements. Typical damage includes splitting [20,21] of concrete around the tendons, caused mainly by the increase in diameter by the tendons that were destressed at the moment of release [22,23], and spalling of concrete caused by transverse tension between the tendons [24]. Both of these types of damage are prevented by introducing transverse reinforcement, most often in the form of stirrups thickened at the ends of the beams.…”
Section: Incorrect Construction Of Reinforcementmentioning
confidence: 99%
“…Although anchoring through the adhesion of tendons has a positive effect on the distribution of stresses, stress accumulations still occur at the ends of the elements. Typical damage includes splitting [20,21] of concrete around the tendons, caused mainly by the increase in diameter by the tendons that were destressed at the moment of release [22,23], and spalling of concrete caused by transverse tension between the tendons [24]. Both of these types of damage are prevented by introducing transverse reinforcement, most often in the form of stirrups thickened at the ends of the beams.…”
Section: Incorrect Construction Of Reinforcementmentioning
confidence: 99%
“…It was founded around the 1960s; horizontal cracks occur in the pretensioned member ends, Marshall and Mattock (12) investigated with an experimental study. After that, multiple researchers have done analytical studies (such as the Gergely-Sozen model, strut-and-tie models, and nonlinear finite element analysis) and experimental studies to realize the end-zone stresses or to design the end-zone reinforcements (5)(6)(7)(8)11,(13)(14)(15)(16)(17)(18) .…”
Section: Introductionmentioning
confidence: 99%
“…Also, efforts have been made to improve the predictive equations provided for bursting force among several design equations for the anchorage zone presented in AASHTO [5][6][7]. On the other hand, a large portion of the previous studies focused on improving the details of end-region reinforcements that can effectively control the cracks [8][9][10][11][12][13]. Investigation on the stress distribution at the anchorage zone is also important when developing new types of anchorage devices provided for the tendons made of advanced materials such as fiber reinforced polymer (FRP) [14][15][16].…”
Section: Introductionmentioning
confidence: 99%