Push-Out Tests on Interlocked Angles Connectors in Steel-Concrete-Steel Composite Structure

This paper reported a new interlocked angle connector (IAC) for steel-concrete-steel sandwich structures. Shear performances of IACs embedded in normal concrete were studied via a push-out testing program, and the failure mode, shear resistance, and load–slip responses of IACs in normal concrete wer...

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Published inInternational journal of steel structures Vol. 23; no. 2; pp. 431 - 448
Main Authors Chen, Junyi, Wang, Yonghui, Zhai, Ximei, Zhi, Xudong, Sun, Menghan
Format Journal Article
LanguageEnglish
Published Seoul Korean Society of Steel Construction 01.04.2023
Springer Nature B.V
한국강구조학회
Subjects
Civil Engineering
Composite structures
Connectors
Engineering
Failure modes
Load resistance
Materials Science
Mathematical analysis
Mathematical models
Sandwich structures
Shear strength
Slip
Slip resistance
Solid Mechanics
Steel structures
Thickness
토목공학
Failure mode
Interlocked angles connectors
Push-out test
Shear behaviour
Steel-concrete-steel sandwich structures
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Abstract This paper reported a new interlocked angle connector (IAC) for steel-concrete-steel sandwich structures. Shear performances of IACs embedded in normal concrete were studied via a push-out testing program, and the failure mode, shear resistance, and load–slip responses of IACs in normal concrete were obtained. The influences of height, width, thickness, orientation of steel angles, and interlocking bolts on shear behaviours of IACs were experimentally studied. The experimental results indicated that the ultimate shear resistances and slip capacities of IACs were improved via increasing the height, width and thickness of steel angles, while the orientation of steel angles exhibited limited influence on the ultimate shear resistances and failure modes of IACs. In addition, the analytical models were proposed for predicting ultimate shear resistances and load–slip behaviours of IACs. The experimental results were employed to validate the analytical models, and the proposed analytical models were found to provide more accurate predictions on ultimate shear resistances and load–slip behaviours of IACs as compared to the existing design codes.
AbstractList This paper reported a new interlocked angle connector (IAC) for steel-concrete-steel sandwich structures. Shear performances of IACs embedded in normal concrete were studied via a push-out testing program, and the failure mode, shear resistance, and load–slip responses of IACs in normal concrete were obtained. The influences of height, width, thickness, orientation of steel angles, and interlocking bolts on shear behaviours of IACs were experimentally studied. The experimental results indicated that the ultimate shear resistances and slip capacities of IACs were improved via increasing the height, width and thickness of steel angles, while the orientation of steel angles exhibited limited influence on the ultimate shear resistances and failure modes of IACs. In addition, the analytical models were proposed for predicting ultimate shear resistances and load–slip behaviours of IACs. The experimental results were employed to validate the analytical models, and the proposed analytical models were found to provide more accurate predictions on ultimate shear resistances and load–slip behaviours of IACs as compared to the existing design codes. KCI Citation Count: 0
This paper reported a new interlocked angle connector (IAC) for steel-concrete-steel sandwich structures. Shear performances of IACs embedded in normal concrete were studied via a push-out testing program, and the failure mode, shear resistance, and load–slip responses of IACs in normal concrete were obtained. The influences of height, width, thickness, orientation of steel angles, and interlocking bolts on shear behaviours of IACs were experimentally studied. The experimental results indicated that the ultimate shear resistances and slip capacities of IACs were improved via increasing the height, width and thickness of steel angles, while the orientation of steel angles exhibited limited influence on the ultimate shear resistances and failure modes of IACs. In addition, the analytical models were proposed for predicting ultimate shear resistances and load–slip behaviours of IACs. The experimental results were employed to validate the analytical models, and the proposed analytical models were found to provide more accurate predictions on ultimate shear resistances and load–slip behaviours of IACs as compared to the existing design codes.
Author Chen, Junyi
Sun, Menghan
Zhai, Ximei
Zhi, Xudong
Wang, Yonghui
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  givenname: Menghan
  surname: Sun
  fullname: Sun, Menghan
  organization: College of Aerospace and Civil Engineering, Harbin Engineering University
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Keywords Failure mode
Interlocked angles connectors
Push-out test
Shear behaviour
Steel-concrete-steel sandwich structures
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Snippet This paper reported a new interlocked angle connector (IAC) for steel-concrete-steel sandwich structures. Shear performances of IACs embedded in normal...
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SubjectTerms Civil Engineering
Composite structures
Connectors
Engineering
Failure modes
Load resistance
Materials Science
Mathematical analysis
Mathematical models
Sandwich structures
Shear strength
Slip
Slip resistance
Solid Mechanics
Steel structures
Thickness
토목공학
Title Push-Out Tests on Interlocked Angles Connectors in Steel-Concrete-Steel Composite Structure
URI https://link.springer.com/article/10.1007/s13296-022-00704-0
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