An Experimental Study of Welded Bar Sleeve Wall Panel Connection under Tensile, Shear, and Flexural Loads

Ling, Jen Hua; Rahman, Atiqur; Ibrahim, Izni Syahrizal; Hamid, Zuhairi Abdul

doi:10.1007/s40069-017-0202-y

Cited by 28 publications

(26 citation statements)

References 22 publications

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“…b) C2: The connection should be ductile for survival purposes. Thus, the ductility ratio, Rdc, should be at least 4.0 for the low-moderate seismic region (Soudki, 1994, Ling et al, 2017 where ϕu is the rotation of connection at the ultimate state (milli-rad) and ϕd is the designed rotation of connection beam (milli-rad) c) C3: The connection should not fail earlier than the beam. Therefore, the ultimate rotation of the connection should be greater than the allowable rotation of the beam, presumably at least 3 times more.…”

Section: Feasibility Evaluationmentioning

confidence: 99%

Behaviour of Precast Concrete Beam-to-Column Connection with SHS Hidden Corbel Subjected to Monotonic Load

Ling

Lim

Rahman

2021

Journal of the Civil Engineering Forum

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Beam-to-column connection is the most critical part of a precast concrete (PC) structure as it governs the integrity of the entire structure. In this study, a beam-to-column connection with square hollow section (SHS) hidden corbel was developed. A full-scale test was conducted on eleven T-subframe specimens with various configurations to investigate the behaviour of the connection under an incremental static load. The behaviour of the connection was evaluated in terms of the moment-rotation response and the mechanical properties were obtained by using the beam-line method. Due to the extensive usage of steel elements, the PC connect possessed a higher ultimate strength than the reinforced concrete (RC) connection. The moment resistance of the connection was largely contributed to by the hidden corbel embedded in the beam and column. However, the PC connection gave a lower stiffness, which resulted in a larger rotation deformation than the RC connection, and thus lowered its design strength. The PC connection was classified as semi-rigid and partial strength, and only specimen PC-3 was considered feasible for PC structures.

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Section: Feasibility Evaluationmentioning

confidence: 99%

Behaviour of Precast Concrete Beam-to-Column Connection with SHS Hidden Corbel Subjected to Monotonic Load

Ling

Lim

Rahman

2021

Journal of the Civil Engineering Forum

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“…Many researchers such [1,8,10] have carried out extensive researches on investigating the behaviors of precast wall to wall vertical connection compare to wall to wall horizontal connection. In the current decade, few types of wall to wall horizontal connections have been introduced to the construction industry such loop connection, wire loop and U-shape steel channel.…”

Section: Types Of Wall To Wall Horizontal Connectionmentioning

confidence: 99%

“…Precast concrete wall is one of the prefabricated components of high demands in the construction industry especially in residential buildings as it combines the benefits of rapid speed of construction, good quality control and minimum labour intensity at the construction site. In Malaysia, precast concrete structure using prefabricated components has gained its popularity because of several advantages such as high quality of structural prefabricated components, less labour intensity at the construction site and shorter completion time of a project [8]. However, the connection of precast wall is a key factor as it provides the structure integrity and robustness of the overall structural system.…”

Section: Introductionmentioning

confidence: 99%

Wall to Wall Horizontal Connection for Precast Concrete Structures

2019

IJRTE

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Precast concrete wall is one of the prefabricated components of high demands in the construction industry especially in residential buildings as it combines the benefit of rapid speed of construction, good quality control and minimum labour intensity at the construction site. Precast wall is produced in forms of wall panels and connected in the construction site to form an integrated structural element called precast concrete wall. However, the connection of wall panels is a key factor as it provides the structure integrity and robustness of the overall structural system. Therefore, this paper aims to describe and summarize types of precast wall-to-wall horizontal connection in terms structural behaviours such as embedded length, bonding stress, seismic behaviours and modes of failure. A total number of ten (10) out of eighteen (18) papers will be reviewed and discussed. The findings show that loop connection is suitable for seismically stabile zones as it is not capable to withstand lateral load action effectively whereas wire rope connection has insufficient ductility as the load -carrying capacity is governed by yielding of the lock bar and crushing of the joint mortar. Furthermore, U-shaped steel channel connection, the connection was developed for seismic zones. Providing U-shaped rubber in between the U-shape steel channel has made the connection more flexible with energy dissipater system. Keywords: Precast concrete wall-to-wall connection; structural behaviours of precast wall-to-wall horizontal connections; mode of failure of precast wall-to-wall horizontal connections.

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“…Tullini and Minghini [11] conducted an experimental research on the behavior of precast reinforced concrete column-to-column connections made with grouted sleeve splices in Italy. Ling et al [12] studied the behavior of the precast concrete wall panels, which was connected by a grouted splice connector in Malaysia. Figure 1 is a sketch of a vertically-connected precast concrete shear wall system with a grouted splice connector.…”

Section: Introductionmentioning

confidence: 99%

Mechanical Analysis of Grouted Sleeve Lapping Connector

Sun

et al. 2019

Applied Sciences

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Compared to grouted splice connectors that have been widely used in constructing precast concrete structures, grouted sleeve lapping connectors have the advantages of a large sleeve interior diameter and low manufacturing cost. In this study, 16 grouted sleeve lapping connectors and three grouted splice connectors were tested under an incremental tensile load. The differences in their tensile capacities and failure modes, especially the mechanical properties of the grouted sleeve lapping connectors, were investigated. It was found that the tensile capacities of the grouted sleeve lapping connectors were up to 2.45 times that of the grouted splice connectors when the sleeve inner surfaces were smooth. All of the grouted sleeve lapping connectors failed by a bar tensile fracture or bar-grout slip, whereas the only failure mode of the grouted splice connectors was grout-sleeve failure. The bond stress distribution around the inserted bar in the grouted sleeve lapping connector was similar to the bond stress distribution around a single bar anchored in concrete. The ultimate hoop compressive strain of the sleeve and the corresponding load increase with greater lap length. In addition, an approximate mechanical model with high reliability was put forward to describe the mechanical properties of the grouted sleeve lapping connector.

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An Experimental Study of Welded Bar Sleeve Wall Panel Connection under Tensile, Shear, and Flexural Loads

Cited by 28 publications

References 22 publications

Behaviour of Precast Concrete Beam-to-Column Connection with SHS Hidden Corbel Subjected to Monotonic Load

Behaviour of Precast Concrete Beam-to-Column Connection with SHS Hidden Corbel Subjected to Monotonic Load

Wall to Wall Horizontal Connection for Precast Concrete Structures

Mechanical Analysis of Grouted Sleeve Lapping Connector

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