Experimental study and associated numerical simulation of horizontally connected precast shear wall assembly

Sun, Jian; Qiu, Hongxing; Lu, Yong

doi:10.1002/tal.1277

Cited by 48 publications

(20 citation statements)

References 21 publications

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“…In the test, the relative position of bolts to their individual host holes in the actual specimens is understandably random. When slipping started, individual bolts would have come into contact with the bolt holes in a progressive manner (Sun et al, 2016). Therefore, data modification was performed before usage: the original curves before the end of slippage stage were removed to the left side of the original point.…”

Section: Experimental Investigationmentioning

confidence: 99%

“…The advantages of bolted connection include convenient construction, better-quality control, as well as less labor cost. A series of experimental and theoretical studies were performed on the application of using the suitable steel structure connection method to novel structure systems, such as composite beam (Ataei et al, 2016), steel-concrete composite bridge (Suwaed and Karavasilis, 2017), and precast wall (Guo et al, 2019;Sun et al, 2016). Conventional ''wet'' methods are widely used in connecting adjacent precast shear wall panels, for instance, connecting reinforcing bars with lap splices and cast-in-situ concrete or with mechanical couplers and fresh cementitious grout (Aaleti et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

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Behavior of steel–concrete composite bolted connector in precast reinforced concrete shear wall

Jiang

Qiu

Sun

et al. 2019

Advances in Structural Engineering

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An assembling method of precast shear walls was previously proposed using steel–concrete composite bolted connectors. To further investigate the effectiveness and mechanical behavior of the proposed composite connector, 11 specimens were fabricated and tested under monotonic tensile loading. The test results provided comprehensive data (e.g. load, deformation, failure mode) on the effects of variation in the thickness of steel cap plate, concrete strength, bolt tension, and bolt diameter. Two typical failure modes were observed in the test: bearing failure and bolt shear failure. Finally, the equations for calculating the ultimate strength and yield strength of steel–concrete composite bolted connector are proposed in this article by reference to those of conventional bolted connection. The proposed calculations are demonstrated to be accurate enough through verification with the experimental data.

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Section: Experimental Investigationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Behavior of steel–concrete composite bolted connector in precast reinforced concrete shear wall

Jiang

Qiu

Sun

et al. 2019

Advances in Structural Engineering

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“…The pretension in the bolt is applied using the 'bolt load' function. The model methods of the bolted connection and related parameters have already been calibrated by Sun et al (2016).…”

Section: Finite Element Analysis Of Benchmark Specimenmentioning

confidence: 99%

“…In order to promote the advances in dry connections, an innovative precast RC shear wall system using bolted steel connections has been under development by the authors and their co-workers (Sun et al, 2015(Sun et al, , 2016. A series of experimental and theoretical studies have been conducted on the horizontal and vertical connections in this system.…”

Section: Introductionmentioning

confidence: 99%

Lateral load behaviour of a rectangular precast shear wall involving vertical bolted connections

Sun

Qiu

Jiang

2018

Advances in Structural Engineering

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This article is concerned about precast reinforced concrete shear walls and the methods of assembling shear wall panels to form a reliable load transfer system. An assembling method is proposed using dry connection through an H-shaped steel connector (H-connector) and high-strength bolts. A preliminary design, including the H-connector design and bolt design, has been carried out based on the force analysis on the vertical connection in the wall assembly. On the basis of the finite element analysis verified by an experimental study, the preliminary design has been confirmed and a monolithic coefficient ( ζ) has been used to evaluate the cooperative working performance of the two parallel shear walls. Then this article continues to carry out a finite element parametric study on the mechanical behaviour of the precast reinforced concrete shear walls with varying parameters, which includes the bolt specification, the frictional coefficient on the contact surface within the bolted connection and the thickness of the H-connector flange. The lateral load bearing capacity, lateral stiffness and cooperative working performance of the wall assemblies involving these varying parameters have been broadly analysed.

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“…Therefore, multiple TWHCPP units need to be connected in horizontal and vertical directions, and the performance of the TWHCPP shear wall with connections needs to be investigated. The seismic performance of precast shear walls with horizontal connections has been studied extensively, [14,25,26] while related research on the performance of precast shear walls with vertical connections is limited. Therefore, this study primarily focuses on investigating the performance of TWHCPP shear walls with vertical connections.…”

mentioning

confidence: 99%

Experimental study on shear behavior of two‐way hollow core precast panel shear wall with vertical connection

Chu

Chen

Liu

et al. 2020

Structural Design Tall Build

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Summary The two‐way hollow core precast panel (TWHCPP) exhibits good seismic performance. In this study, the shear behavior of the TWHCPP shear wall with vertical connections was investigated. Specifically, five shear wall specimens, which comprised one cast‐in‐place shear wall, one TWHCPP shear wall without vertical connections, and three TWHCPP shear walls with vertical connections, were investigated experimentally. The TWHCPP shear walls were also modeled through numerical simulation. The experimental and numerical results indicate that the TWHCPP shear wall specimens with vertical connections exhibit monolithic load‐bearing mechanisms before the peak point, which is similar to the cast‐in‐place shear wall specimen. When the peak point of the TWHCPP shear wall specimen was attained, vertical slits were formed in the vertical connection and major vertical crack regions, which divided the shear wall panel into multiple vertical concrete straps. Subsequently, the load‐bearing mechanism of the TWHCPP shear wall transformed to multiple vertical concrete straps working cooperatively with transverse reinforcements. Therefore, the brittle diagonal tension failure mode could be avoided, and a good hysteretic performance could be achieved. The outcomes of this study are expected to provide a useful reference for the application of the TWHCPP shear wall.

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Experimental study and associated numerical simulation of horizontally connected precast shear wall assembly

Cited by 48 publications

References 21 publications

Behavior of steel–concrete composite bolted connector in precast reinforced concrete shear wall

Behavior of steel–concrete composite bolted connector in precast reinforced concrete shear wall

Lateral load behaviour of a rectangular precast shear wall involving vertical bolted connections

Experimental study on shear behavior of two‐way hollow core precast panel shear wall with vertical connection

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