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A platform for research: civil engineering, architecture and urbanism
Characterising mechanical properties and failure criteria of steel slag aggregate concrete under multiaxial stress states
Abstract To advance the application of steel slag aggregate concrete (SAC) in civil engineering, this study introduces a comprehensive experimental program to explore the failure mode, strength, deformation, and failure criteria of SAC under multiaxial stress conditions. In this investigation, SAC specimens containing 50% stabilised steel slag as a coarse aggregate were examined for mechanical behaviour (e.g. stress–strain relationships) under diverse loading scenarios, including uniaxial tensile and compressive loadings, biaxial compression, and true triaxial compression loadings. Subsequently, three distinct failure criteria (i.e. the Ottosen criterion [1], William–Warnke criterion [2], and Guo criterion [3]) for SAC were formulated and authenticated based on the experimental outcomes. The results showed varied failure modes in the SAC, such as prism type, splitting tensile, sheet-like tensile, and oblique shear, which depended on the stress state of the specimen during failure. A significant elevation in the ultimate strength and deformation of SAC specimens was observed, with an increment in the first-to-third principal stress ratio (σ 1/σ 3). Furthermore, the failure criterion introduced by Guo was validated as adept at reproducing all geometric characteristics of the concrete failure surface and precisely forecasting SAC’s ultimate strength of the SAC. Overall, this investigation proposed a reliable failure criterion based on true triaxial test data that can not only describe the multiaxial strength characteristics of SAC but also provide design advice for the applications of SAC in engineering structures.
Highlights Failure modes for steel slag aggregate concrete (SAC) are closely related to the stress state during failure. Influence of stress ratio on the ultimate strength and deformation of SAC is detailed. A valid failure criterion for SAC has been developed and verified.
Characterising mechanical properties and failure criteria of steel slag aggregate concrete under multiaxial stress states
Abstract To advance the application of steel slag aggregate concrete (SAC) in civil engineering, this study introduces a comprehensive experimental program to explore the failure mode, strength, deformation, and failure criteria of SAC under multiaxial stress conditions. In this investigation, SAC specimens containing 50% stabilised steel slag as a coarse aggregate were examined for mechanical behaviour (e.g. stress–strain relationships) under diverse loading scenarios, including uniaxial tensile and compressive loadings, biaxial compression, and true triaxial compression loadings. Subsequently, three distinct failure criteria (i.e. the Ottosen criterion [1], William–Warnke criterion [2], and Guo criterion [3]) for SAC were formulated and authenticated based on the experimental outcomes. The results showed varied failure modes in the SAC, such as prism type, splitting tensile, sheet-like tensile, and oblique shear, which depended on the stress state of the specimen during failure. A significant elevation in the ultimate strength and deformation of SAC specimens was observed, with an increment in the first-to-third principal stress ratio (σ 1/σ 3). Furthermore, the failure criterion introduced by Guo was validated as adept at reproducing all geometric characteristics of the concrete failure surface and precisely forecasting SAC’s ultimate strength of the SAC. Overall, this investigation proposed a reliable failure criterion based on true triaxial test data that can not only describe the multiaxial strength characteristics of SAC but also provide design advice for the applications of SAC in engineering structures.
Highlights Failure modes for steel slag aggregate concrete (SAC) are closely related to the stress state during failure. Influence of stress ratio on the ultimate strength and deformation of SAC is detailed. A valid failure criterion for SAC has been developed and verified.
Characterising mechanical properties and failure criteria of steel slag aggregate concrete under multiaxial stress states
Chen, Zhijun (author) / Huang, Liang (author) / Yan, Libo (author) / Li, Shuisheng (author) / Cai, Heng (author) / Li, Yin (author) / Luo, Xiaofeng (author)
2024-03-18
Article (Journal)
Electronic Resource
English
Mechanical properties of recycled aggregate concrete under multiaxial compression
| SAGE Publications | 2020
| Springer Verlag | 1999