Seismic-Resistant Precast Concrete Structures: State of the                    Art

Kurama, Yahya C.; Sritharan, Sri; Fleischman, Robert B.; Restrepo, José I.; Henry, Richard; Cleland, Ned M.; Ghosh, Suman; Bonelli, Patricio

doi:10.1061/(asce)st.1943-541x.0001972

Cited by 345 publications

(119 citation statements)

References 144 publications

(171 reference statements)

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“…In the FP7 European project, numerous experimental projects were carried out to study the performance of different types of advanced connections, including a rebar connection and two types of steel mechanisms: Wall Shoe and steel plate. It shows that the ductility coefficient of the rebar connection and the Wall Shoe is close to 7, while that of the steel plate connection is lower due to the brittle failure of the bolts . To prevent slip and pinching caused by plastic deformation of the connectors, it is necessary to ensure that the design of connections is conservative .…”

Section: Introductionmentioning

confidence: 99%

“…To prevent slip and pinching caused by plastic deformation of the connectors, it is necessary to ensure that the design of connections is conservative . A new type of connection method for prefabricated wall has been introduced, and the experimental results show that the steel anchor bolts at the joint can be designed as the ductile structural fuses . The steel anchor bolts at the connection are designed as the ductile fuses to reduce damage to the concrete and minimize the loss of bearing capacity during an earthquake.…”

Section: Introductionmentioning

confidence: 99%

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Experimental and shear bearing capacity studies of the assembled composite wall with bolted connections

Huang

Miao

et al. 2020

Structural Design Tall Build

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Summary To realize the dry connection of an assembled composite wall structure, a bolted connection based on the horizontal joint of an assembled composite wall is proposed. Five specimens were designed under monotonic loading. The failure modes, the seismic performance of the specimens, and the strains and slip of the connectors were studied. The plate thickness and the high‐strength bolts diameter are the key points of research. Moreover, the finite element model for experiment is also established, and the parameters are analyzed based on the numerical models. The results of the experiments and the simulations show that the bolted connection is feasible and the specimens have good deformation capacity. Increasing the plate thickness can improve the bearing capacity of the specimens. Finally, the formula for the shear bearing capacity of the specimen is obtained.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Experimental and shear bearing capacity studies of the assembled composite wall with bolted connections

Huang

Miao

et al. 2020

Structural Design Tall Build

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“…It allows mass production of standard components in a factory environment, thus leading to considerable reduction of the construction time and labor cost and better quality control . Precast RC structures with earthquake‐resistant connections and detailing are also popular in seismic regions …”

Section: Introductionmentioning

confidence: 99%

Experimental study of lateral load behavior of H‐shaped precast reinforced concrete shear walls with bolted steel connections

Sun,

Qiu,

et al. 2019

Structural Design Tall Build

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Summary This paper presents an experimental study of H‐shaped precast reinforced concrete shear walls involving vertical connections under combined vertical and lateral loading. The H‐wall is composed of two prefabricated flange wall panels: one prefabricated web wall panel and vertical bolted steel connections between the flange and web panels. The assembling of the H‐wall is completely dry without any in situ casting. Three H‐wall specimens were constructed and tested to investigate the mechanical behavior and seismic performance of them. The lateral load‐bearing capacity, ductility, energy dissipation, lateral stiffness, strain in the connecting steel frame, and sliding within the bolted steel connections are presented and discussed to evaluate the effectiveness of the vertical connections. The ultimate shear‐resistance mechanism of the precast H‐wall assembly is also analyzed. The H‐wall assemblies generally possess high load‐bearing capacity, favorable ductility, and good energy‐dissipating capacity. The thickness of the steel plates in the connecting steel frame affects the lateral stiffness and the ultimate load‐bearing capacity of the H‐walls. Furthermore, the encasing steel plates for the web wall panel not only helps transfer the stress in the wall steel bars but also confines the concrete resulting in improved ductility.

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“…In general, beam‐column connections in precast concrete frame structure can be broadly classified into two types, emulative and jointed (non‐emulative) . Emulative connections are designed and detailed to make the performance, in terms of strength, stiffness, and energy dissipation, of the precast concrete structures emulated to the monolithic cast‐in‐place (CIP) structures.…”

Section: Introductionmentioning

confidence: 99%

“…2,3 In general, beam-column connections in precast concrete frame structure can be broadly classified into two types, emulative and jointed (non-emulative). 4 Emulative connections are designed and detailed to make the performance, in terms of strength, stiffness, and energy dissipation, of the precast concrete structures emulated to the monolithic cast-in-place (CIP) structures. While, the jointed connections, which are distinctly different from emulative connections, allow nonlinear rotations of the structure deliberately concentrating at the ends of the precast members in the joint regions without causing significant inelastic behavior in the members.…”

Section: Introductionmentioning

confidence: 99%

Full‐scale tests of precast concrete beam‐column connections with composite T‐beams and cast‐in‐place columns subjected to cyclic loading

Xue

Yang²,

2019

Structural Concrete

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The precast concrete beam‐column connections investigated herein, designed and detailed to be emulative connections, consisted of composite concrete T‐beams and cast‐in‐place (CIP) concrete columns. This paper reported the test results of two full‐scale precast connections and two CIP control specimens under cyclic loading. Results revealed that all connections exhibited a strong column‐weak beam failure mechanism. The hysteresis loops of each precast connection were relatively plump and similar to those of its CIP control specimen, showing good energy dissipation capacity. The difference in load‐carrying capacity between precast connections and their CIP control specimens was about 6.5% for interior connections and about −2.2% for exterior connections. The average displacement ductility of precast interior connection and its CIP control specimen was 5.69 and 6.88, while that of precast exterior connection and its CIP control specimen was 4.18 and 4.40, respectively. A four‐fold line restoring force model was developed based on the test results.

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Seismic-Resistant Precast Concrete Structures: State of the Art

Cited by 345 publications

References 144 publications

Experimental and shear bearing capacity studies of the assembled composite wall with bolted connections

Experimental and shear bearing capacity studies of the assembled composite wall with bolted connections

Experimental study of lateral load behavior of H‐shaped precast reinforced concrete shear walls with bolted steel connections

Full‐scale tests of precast concrete beam‐column connections with composite T‐beams and cast‐in‐place columns subjected to cyclic loading

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