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

Sun, Jian; Qiu, Hongxing; Lu, Yong; Jiang, Hongbo

doi:10.1002/tal.1663

Cited by 16 publications

(10 citation statements)

References 19 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…For example, different types of shear walls have been studied, including linear type, I-shaped, L-typed, and T-shaped. Several studies focused on the influence on the seismic behavior of these shear walls exerted by the following factors: the length of the splicing zone, the length of the ribs, the material of the splicing zone, and the form of the splicing zone(Sun et al [11], Song et al [12], LU et al [13], JGJ101-96 [14], Smith et al [15], Pekau et al [16], Soudki et al [17], LI et al [18], Soudki et al [19]). Nevertheless, there are few studies on the prefabricated frame-shear structure.…”

Section: Introductionmentioning

confidence: 99%

An Experimental Study on Mechanical Properties of Concrete-Filled Steel Tube (Cfst) Key-Connected Prefabricated Wall and Column

2020

View full text Add to dashboard Cite

The prefabricated structures have the advantages of high construction speed, energy efficiency, environmental friendliness, and low labor demand. At present, the connection of fabricated concrete structural components mainly relies on connecting the stressed steel bars of the prefabricated components using a variety of methods, and then casting concrete or grout at the joints. This requires a large quantity of wet work, and most studies on this topic focused on frame structures and shear wall structures. The research on frame-shear wall structures is still rare. To fill this gap, a new type of connecting prefabricated shear wall and prefabricated frame column in the assembled frame-shear structure by using concrete-filled steel tubs (CFST) keys is proposed with experimental study. This paper analyzes the differences in the mechanical properties and the failure modes of three kinds of structures , i.e. the wall and column connected by CFST keys, the wall and column connected by the CFST keys with concrete block placed between t hem, and the wall and column connected by the cast-in-place method. This paper also investigates the mechanical properties and failure modes of the first kind of structure when the failure of shear wall is caused by the CFST keys. The test results show tha t the CFST keys with the reinforced concrete block placed between them are superior to the cast-in-place structures in terms of wall-column connection mode, and the bearing capacity and ductility of the structure, while sharing similar initial stiffness of the structure.The CFST keys connection mode shows engineering feasibility and good seismic performance. When designing this type of connection, the strength of the CFST keys should be moderately controlled. If the strength level is too high, the shear resistance of the overall structure will decrease.

show abstract

Section: Introductionmentioning

confidence: 99%

An Experimental Study on Mechanical Properties of Concrete-Filled Steel Tube (Cfst) Key-Connected Prefabricated Wall and Column

2020

View full text Add to dashboard Cite

show abstract

“…They showed that the partially prefabricated reinforced concrete shear wall performs well. Sun Jian et al 9,10 conducted a low cyclic loading test on the prefabricated reinforced concrete shear wall by using connection steel frames and high‐strength bolts. Their results showed that this fabricated shear wall is of high bearing capacity and good ductility and energy dissipation.…”

Section: Introductionmentioning

confidence: 99%

Experimental study on fabricated shear wall structure with energy‐dissipating vertical joint

Yu-liang

Cui

Zhanjun

et al. 2020

Structural Concrete

View full text Add to dashboard Cite

Based on the design concept of 'strong horizontal joint and weak vertical joint', an energy‐dissipating fabricated shear wall structure system with a steel damper is proposed. The wall limbs were connected using the damper to realize the rapid assembly and improve the seismic performance of the fabricated shear wall structure. Four fabricated shear wall specimens and one cast‐in‐place comparison specimen were prepared, and a low‐cycle repeated load test was carried out under an axial compression ratio of 0.1. Results show that the fabricated shear wall structure features slightly reduced bearing capacity but obviously improved ductility, and the energy dissipation of the damper improves the seismic performance of the structure. The damper can dissipate energy rapidly, reduce the damage degree of the wall limbs and work stably, suggesting its good performance as a connector.

show abstract

“…Since then, a significant amount of research has been conducted worldwide on the design and seismic behavior of precast concrete frame structures and precast concrete shear wall structures. The research on precast concrete shear wall structures was mostly focused on the connections of different types, that is, emulative, posttensioned, hybrid, and in posttensioned walls endowed with energy dissipation …”

Section: Introductionmentioning

confidence: 99%

“…Henin and Morcous investigated the use of nonproprietary bar splice sleeves for precast concrete construction, and the test results indicated that the proposed bar splice sleeves exhibit adequate capacity to fully develop reinforcing bars while being simpler to use and more economical than current proprietary splice sleeves. An assembly method was then proposed for precast reinforced concrete shear walls using dry connection through a horizontal steel connector (H‐connector) and high‐strength bolts . In addition, one design‐oriented analytical model to estimate the nonlinear lateral load behavior of unbonded posttensioned walls was introduced and validated with available experimental results .…”

Section: Introductionmentioning

confidence: 99%

Pseudodynamic tests with substructuring of a full‐scale precast box‐modularized structure made of reinforced concrete shear walls

Wang

et al. 2017

Structural Design Tall Build

View full text Add to dashboard Cite

SummaryA novel horizontal and vertical wall-to-wall and wall-to-floor connection methods for precast box-modularized structure with reinforced concrete shear walls (PBSRCSWs) are proposed in this paper. The entailing behavior of the proposed connections and the seismic performance of one full-scale six-story PBSRCSWs were experimentally studied by means of pseudodynamic substructure tests. In order to improve the relevant experimental accuracy, we presented and validated one versatile testing platform Hytest, combined with external displacement feedback control (EDFC; Hytest with EDFC). In greater detail, it was shown from the pseudodynamic substructure test results that the proposed Hytest with EDFC can effectively impose the desired displacements on the specimens rather than on the actuators. Moreover, both the horizontal and vertical wall-to-wall connections proposed for the PBSRCSWs exhibited a favorable behavior whilst the PBSRCSWs subjected to earthquake records showed an excellent seismic performance. KEYWORDSconcrete connection, external displacement feedback control, precast box-modularized structure, pseudodynamic substructure test, reinforced concrete shear wall, seismic performance

show abstract

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

Cited by 16 publications

References 19 publications

An Experimental Study on Mechanical Properties of Concrete-Filled Steel Tube (Cfst) Key-Connected Prefabricated Wall and Column

An Experimental Study on Mechanical Properties of Concrete-Filled Steel Tube (Cfst) Key-Connected Prefabricated Wall and Column

Experimental study on fabricated shear wall structure with energy‐dissipating vertical joint

Pseudodynamic tests with substructuring of a full‐scale precast box‐modularized structure made of reinforced concrete shear walls

Contact Info

Product

Resources

About