Effects of variation in loading protocol on the strength and deformation capacity of ductile reinforced concrete beams

Marder, Kai; Motter, Christopher J.; Elwood, Kenneth J.; Clifton, G. Charles

doi:10.1002/eqe.3064

Cited by 22 publications

(14 citation statements)

References 19 publications

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“…1(b)], the expected loading cycles may not differ that much from those of a standard symmetric-cyclic loading protocol. Similar conclusions hold true for reinforced concrete members (Marder et al 2018).…”

Section: Loading Historysupporting

confidence: 78%

Closure to “Proposed Updates to the ASCE 41 Nonlinear Modeling Parameters for Wide-Flange Steel Columns in Support of Performance-Based Seismic Engineering” by Dimitrios G. Lignos, Alexander R. Hartloper, Ahmed Elkady, Gregory G. Deierlein, and Ronald Hamburger

et al. 2021

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Section: Loading Historysupporting

confidence: 78%

Closure to “Proposed Updates to the ASCE 41 Nonlinear Modeling Parameters for Wide-Flange Steel Columns in Support of Performance-Based Seismic Engineering” by Dimitrios G. Lignos, Alexander R. Hartloper, Ahmed Elkady, Gregory G. Deierlein, and Ronald Hamburger

et al. 2021

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“…Marder et al 14 . proposed a new “earthquake‐then‐cyclic protocol” as an alternative to traditional static loading protocols.…”

Section: Experimental Program and Test Resultsmentioning

confidence: 99%

Quantification of the reduction factors of seismic capacity for damaged RC column members using the experiment database

Chiu

Sung

Chiou

2020

Earthq Engng Struct Dyn

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Static‐cyclic loading is used to identify the reduction factors of seismic capacity of damaged reinforced concrete (RC) column members. The reduction factors of seismic capacity that are obtained from specimens damaged under static‐cyclic loading differ from those obtained in dynamic testing, and this difference is investigated in this work. The experimental results obtained in this work, previously obtained results, and the “Pacific Earthquake Engineering Research Center Structural Performance Database (PEER)” are used to obtain reduction factors of strength, stiffness, and energy dissipation. From the damage levels of column members after an earthquake, corresponding reduction factors can be determined and used in the seismic assessment of an RC building.

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“…Previous research [15] has shown that the number of loading cycles applied at or below 2% drift does not typically result in a reduced deformation capacity in ductile plastic hinges, based on tests of beams and columns with length (or height) to depth ratios of 2.2 to 5.7 (note that this study did not consider the effects of epoxy repair or strain ageing). This is further evidenced in Fig.…”

Section: Deformation Capacitymentioning

confidence: 94%

“…Analysis using the test results was not included in the data paper [12]. Information on the influence of loading protocol on beam response is included in Marder et al [15], while this paper is focused on epoxy repair of damaged plastic hinges. Three specimens (named LD-1-R, LD-2-R, and LD-2-LER-R, where "-R" denotes these as repaired) were repaired following initial damaging earthquake-displacement history loadings.…”

Section: Summary Of Relevant Experimental Tests Beam Tests By Marder mentioning

confidence: 99%

“…LD-1 and LD-1-R) exhibited different damage patterns following the initial earthquake loadings. The authors attribute this to inherent uncertainty in the development of damage in reinforced concrete plastic hinges, and more information is provided in [15]. [8,11], exterior and interior beam-column subassemblies [9,10], and bridge columns [21].…”

Section: Figure 1: Loading Protocols Applied To Specimens (A) Cyc Andmentioning

confidence: 99%

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Quantifying the Effects of Epoxy Repair of Reinforced Concrete Plastic Hinges

Marder

Elwood

Motter

et al. 2020

BNZSEE

Self Cite

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Modern reinforced concrete structures are typically designed to form plastic hinges during strong earthquakes. In post-earthquake situations, repair of moderate plastic hinging damage can be undertaken by filling the crack system with epoxy resin and reconstituting spalled cover concrete. This study uses available experimental test data, including three large-scale ductile beams tested by the authors, to investigate the effects of epoxy repair on the structural behaviour of plastic hinges, with a focus on beam elements. Factors that have been neglected in past studies, including the effects of residual deformations at the time of repair, are given special attention. It is found that epoxy-repaired plastic hinges can exhibit different behaviour from identical undamaged components in terms of stiffness, strength, deformation capacity, and axial elongation. Potential explanations for the observed differences in behaviour are given, and recommendations are made for how these differences can be quantified in order to relate the expected response of an epoxy-repaired plastic hinge to the response that would be calculated for an identical undamaged component.

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Effects of variation in loading protocol on the strength and deformation capacity of ductile reinforced concrete beams

Cited by 22 publications

References 19 publications

Closure to “Proposed Updates to the ASCE 41 Nonlinear Modeling Parameters for Wide-Flange Steel Columns in Support of Performance-Based Seismic Engineering” by Dimitrios G. Lignos, Alexander R. Hartloper, Ahmed Elkady, Gregory G. Deierlein, and Ronald Hamburger

Closure to “Proposed Updates to the ASCE 41 Nonlinear Modeling Parameters for Wide-Flange Steel Columns in Support of Performance-Based Seismic Engineering” by Dimitrios G. Lignos, Alexander R. Hartloper, Ahmed Elkady, Gregory G. Deierlein, and Ronald Hamburger

Quantification of the reduction factors of seismic capacity for damaged RC column members using the experiment database

Quantifying the Effects of Epoxy Repair of Reinforced Concrete Plastic Hinges

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