Shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams
A series of shear tests on six fibre-reinforced lightweight aggregate concrete (FRLWAC) beams containing both steel and polypropylene fibres are presented in this paper. These beams were designed and cast with different boundary conditions, steel fibre contents, and shear-span-to-depth ratios (a/d)....
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sg-ntu-dr.10356-1825152025-02-05T06:42:08Z Shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams Kevinly, Christopher Du, Panwei Teoh, Bak Koon Tan, Kang Hai School of Civil and Environmental Engineering Engineering Shear behaviour Lightweight concrete A series of shear tests on six fibre-reinforced lightweight aggregate concrete (FRLWAC) beams containing both steel and polypropylene fibres are presented in this paper. These beams were designed and cast with different boundary conditions, steel fibre contents, and shear-span-to-depth ratios (a/d). From the test programme, it was found that an addition of 0.5 % of steel fibre by volume significantly improved the shear behaviour of continuous FRLWAC beams and mitigated the concern of low shear resistance associated with lightweight concrete. The addition of steel fibre enhanced the direct strut strength of FRLWAC beams in shear and improved the efficacy of stirrups in transferring shear forces. The test results also suggested that continuity effect prevented sudden and complete loss of load-carrying capacity in FRLWAC beams failing in shear, although it did not significantly increase the shear-carrying capacity. A strut-and-tie model was proposed to predict the shear resistance of continuous FRLWAC beams. The contribution of steel fibre in enhancing the efficacy of compression struts and stirrups was considered in this model. This model was shown to be accurate in predicting the shear resistance of FRLWAC beams and was more accurate and reliable compared to available shear strength prediction provisions in different design codes. It also presents a viable alternative to a three-dimensional finite-element model for predicting the shear resistance of continuous FRLWAC beams. Ministry of National Development (MND) National Research Foundation (NRF) This material is based on research supported by the Singapore Ministry of National Development and National Research Foundation under CoT Award No. COT-V3–2021-1. Any opinions, findings, conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of CoT. 2025-02-05T06:42:07Z 2025-02-05T06:42:07Z 2025 Journal Article Kevinly, C., Du, P., Teoh, B. K. & Tan, K. H. (2025). Shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams. Engineering Structures, 323, 119141-. https://dx.doi.org/10.1016/j.engstruct.2024.119141 0141-0296 https://hdl.handle.net/10356/182515 10.1016/j.engstruct.2024.119141 2-s2.0-85208067149 323 119141 en COT-V3–2021-1 Engineering Structures © 2024 Elsevier Ltd. All rights are reserved, including those for text and data mining, AI training, and similar technologies. |
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Engineering Shear behaviour Lightweight concrete |
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Engineering Shear behaviour Lightweight concrete Kevinly, Christopher Du, Panwei Teoh, Bak Koon Tan, Kang Hai Shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams |
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A series of shear tests on six fibre-reinforced lightweight aggregate concrete (FRLWAC) beams containing both steel and polypropylene fibres are presented in this paper. These beams were designed and cast with different boundary conditions, steel fibre contents, and shear-span-to-depth ratios (a/d). From the test programme, it was found that an addition of 0.5 % of steel fibre by volume significantly improved the shear behaviour of continuous FRLWAC beams and mitigated the concern of low shear resistance associated with lightweight concrete. The addition of steel fibre enhanced the direct strut strength of FRLWAC beams in shear and improved the efficacy of stirrups in transferring shear forces. The test results also suggested that continuity effect prevented sudden and complete loss of load-carrying capacity in FRLWAC beams failing in shear, although it did not significantly increase the shear-carrying capacity. A strut-and-tie model was proposed to predict the shear resistance of continuous FRLWAC beams. The contribution of steel fibre in enhancing the efficacy of compression struts and stirrups was considered in this model. This model was shown to be accurate in predicting the shear resistance of FRLWAC beams and was more accurate and reliable compared to available shear strength prediction provisions in different design codes. It also presents a viable alternative to a three-dimensional finite-element model for predicting the shear resistance of continuous FRLWAC beams. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Kevinly, Christopher Du, Panwei Teoh, Bak Koon Tan, Kang Hai |
| format |
Article |
| author |
Kevinly, Christopher Du, Panwei Teoh, Bak Koon Tan, Kang Hai |
| author_sort |
Kevinly, Christopher |
| title |
Shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams |
| title_short |
Shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams |
| title_full |
Shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams |
| title_fullStr |
Shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams |
| title_full_unstemmed |
Shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams |
| title_sort |
shear behaviour of continuous fibre-reinforced lightweight aggregate concrete beams |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182515 |
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1823807368322875392 |