Experimental study on local bond stress-slip relationship in self-compacting concrete

Sabău, Marian; Pop, Ioan T.; Onet, Traian

doi:10.1617/s11527-015-0749-5

Cited by 28 publications

(17 citation statements)

References 21 publications

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“…Previous studies have reported an increase in bond strength with increase in confining pressure [20,28,27,37,39], yet it tends to level off at ratios of σl,cc/fc of between about 0.25 and 0.30, where σl,cc is the lateral confining stress and fc is the concrete strength.…”

Section: Introductionmentioning

confidence: 95%

“…In such tests, premature splitting failures can be arrested through confining action by stirrups [27,28] or external devices [29][30][31]. Tests showed nonetheless that the bond strength exhibits an upper bound, since there is a limit of confining pressure which forces bond failure due to shearing of the concrete keys between the rebar ribs [26,29].…”

Section: Introductionmentioning

confidence: 99%

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Bond-slip response of deformed bars in rubberised concrete

Bompa

Elghazouli

2017

Construction and Building Materials

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This paper is concerned with examining the complete bond-slip behaviour between deformed reinforcement bars and concrete incorporating rubber particles from recycled tyres as partial replacement for mineral aggregates. An experimental study consisting of fifty-four pull-out tests on cylindrical rubberised and normal concrete specimens, in conjunction with two reinforcement sizes with short embedment lengths, is described. In addition to a detailed assessment of the full bondslip relationship, the test results offer a direct interpretation of bond behaviour under practical levels of confinement and its influence on the failure modes. Particular emphasis is given to the characteristic bond behaviour of rubberised concrete in terms of maximum bond strength and splitting strength as well bond stiffness and slip parameters. The detailed test measurements and observations provided in this study enable the definition of key bond parameters depicting the interfacial behaviour between rubberised concrete and deformed bars. The findings also permit the development of modified approaches for reliable representation of the failure modes and bond capacities for the concrete materials considered in this investigation.

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Section: Introductionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

Bond-slip response of deformed bars in rubberised concrete

Bompa

Elghazouli

2017

Construction and Building Materials

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“…The bond strength between reinforcing bars and SCC is mainly derived from friction, chemical adhesion and mechanical interlock resistance of the interface [49]. The failure of mechanical interlock bond resulting from the steel rebar and concrete leads to the concrete being split (low strength of concrete or insufficient thickness of protective layer) or the steel bar being pulled out (the concrete around the interface being shear damage due to the high elastic modulus and the shear strength of steel bar) [50,51]. Muñoz [52] showed that the bond behavior and damage mechanism of FRP bars and concrete were different from that of traditional steel bars owing to the low elastic modulus and shear strength of FRP bars.…”

Section: Principle Of Damage Detection Of Bond-slip Behaviormentioning

confidence: 99%

Identification of bond behavior between FRP/steel bars and self-compacting concrete using piezoceramic transducers based on wavelet energy analysis

Zhou

Zheng

et al. 2020

Archiv.Civ.Mech.Eng

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The civil infrastructures constructed using self-compacting concrete (SCC) reinforced with fiber-reinforced polymer (FRP) bars are advocated for engineering applications due to corrosion resistance and environmental-friendly performance. The bond behavior between FRP reinforcement and SCC is a significant factor affecting the serviceability and failure mechanism of this composite structure. However, it is hard to identify the damage mechanism and failure mode of the interface bond using the traditional test methods. Therefore, an effective monitoring method of interface damage using piezoceramic transducers is proposed in this paper. A series of pull-out tests were performed, and the test variables involved concrete materials and reinforcing bar types. A lead zirconate titanate (PZT) patch transducer acting as an actuator was bonded on the outer surface of reinforcing bars, and a piezoceramic smart aggregate transducer acting as a sensor was embedded in the SCC. A wavelet energy ratio index (WERI) is proposed to identify the damage mechanism of interface between reinforcing bars and SCC. The experimental test results reveal that the damage mechanism and failure mode of the bond between different reinforcing bars and concrete materials can be identified effectively and the peak of bond stress can be captured accurately by using WERI values.

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“…For relatively large couplers, the local reinforcement ratio at the coupler section ρs,co in conjunction with its bond characteristics τb,co, in comparison with the actual reinforcement ratio ρs,b at the rebar section combined with its surface type τb, have a direct effect on the crack spacing and kinematics. A comparative study on the influence of the size factor λs=dcLc/(dbLb) on the crack spacing ratio λco is presented below by considering a range of coupler configurations, with the relevant details extracted from available data sheets [28,29,[51][52][53][54][55][56][57][58][59][60]. The coupler and rebar geometries were used to assess ρs,b, ρs,co and the crack spacing ratio λco=sr0,b/sr0,co in which sr0,b is the crack spacing at the rebar region, while sr0,co represents the crack spacing at the coupler region.…”

Section: Cracking Characteristicsmentioning

confidence: 99%

Monotonic and cyclic performance of threaded reinforcement splices

Bompa

Elghazouli

2018

Structures

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This paper examines the fundamental uniaxial monotonic and cyclic response of reinforcement bars connected with threaded mechanical couplers. Based on a survey of available splicing forms, two types of threaded couplers with different geometric configurations, namely 'parallel threaded couplers' and 'parallel threaded sleeve couplers' are selected for detailed assessment. An experimental study consisting of twenty-four bare (in-air) and embedded (in-concrete) specimens incorporating threaded couplers and non-spliced counterparts, is described. The results enable direct assessment of strength as well as complete deformation characteristics, including the post-cracking and post-yield response, for both monotonic and cyclic conditions. After describing the material properties and specimen details, the main observations are reported based on detailed measurements of crack kinematics including crack width and spacing through a digital image correlation system. Complementary numerical studies, undertaken using nonlinear finite element procedures which are validated against the tests, enabled supplementary parametric investigations accounting for wider ranges of coupler geometries. The findings show that existing guidelines may be used for assessing the crack width and spacing, by accounting for the characteristic bond behaviour at the rebar and coupler regions. The complete deformational response may be obtained by using a suggested stiffness reduction factor that depends on the coupler geometry. Several 'in-air' performance parameters may also be used as a basis for the selection and implementation of couplers in applications requiring ductile member behaviour. , 16 (2018), 358-372. Structures

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Experimental study on local bond stress-slip relationship in self-compacting concrete

Cited by 28 publications

References 21 publications

Bond-slip response of deformed bars in rubberised concrete

Bond-slip response of deformed bars in rubberised concrete

Identification of bond behavior between FRP/steel bars and self-compacting concrete using piezoceramic transducers based on wavelet energy analysis

Monotonic and cyclic performance of threaded reinforcement splices

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