Experimental Research on Concrete Floor Slabs Strengthened by the Embedded Reinforcement Method

LIN Qihui; CHEN Qianran; YE Xijun

doi:10.3724/j.gyjzG23092603

Volume 54 Issue 12

Dec. 2024

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Article Navigation > INDUSTRIAL CONSTRUCTION > 2024 > 54(12): 254-260

LI Bin, LUO Yanyan, LI Xingbo. Seismic Performance Test and Finite Element Analysis of Monolithic Precast Shear Wall with Partially-Connected Vertical Distributed Steel Bars[J]. INDUSTRIAL CONSTRUCTION, 2022, 52(5): 51-59,23. doi: 10.13204/j.gyjzG21040601

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LIN Qihui, CHEN Qianran, YE Xijun. Experimental Research on Concrete Floor Slabs Strengthened by the Embedded Reinforcement Method[J]. INDUSTRIAL CONSTRUCTION, 2024, 54(12): 254-260. doi: 10.3724/j.gyjzG23092603

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Experimental Research on Concrete Floor Slabs Strengthened by the Embedded Reinforcement Method

doi: 10.3724/j.gyjzG23092603

1. Guangdong Jianke Construction Engineering Technology Development Co., Ltd., Guangzhou 510500, China;
2. School of Civil Engineering, Guangzhou University, Guangzhou 510006, China

Received Date: 2023-09-26
Available Online: 2025-01-04
Publish Date: 2024-12-20

Abstract

Abstract

Based on the experiments of concrete floor slabs strengthened by embedded reinforcement method, combined with numerical simulations and analysis, the study explored the mechanical properties of reinforced concrete floor slabs under bending conditions. The feasibility of reinforcing floor slabs using the embedded reinforcement method was validated. Additionally, the study investigated the influence of different groove widths, embedding materials, original concrete strength grades, and reinforcement configurations on the mechanical properties of reinforced concrete slab elements.The results demonstrated that the combined action of rebars embedded using the embedded reinfocement method and concrete could achieve the same effect as embedded rebars. The size of the groove width, original concrete strength grade and the end configurations had minimal impact on the reinforcement effect of embedded reinforcement method. When high-strength grouting material was used as the embedding material, the bearing performance became closer to that of ordinary components, while offering economic and durable advantages compared to epoxy materials.
- concrete floor slab,
- embedded reinforcement method,
- bending test,
- numerical simulation,
- high-strength grouting material

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References

[1]	杨峰斌, 晋娟茹, 陈雪君. 混凝土结构加固设计方法优选[J]. 施工技术, 2016, 45(21): 22-24.
[2]	中华人民共和国住房和城乡建设部. 混凝土结构加固设计规范: GB 50367—2013[S].北京:中国建筑工业出版社, 2014.
[3]	NOVIDIS D, PANTAZOPOULOU S J, TENTOLOURIS E. Experimental study of bond of NSM-FRP reinforcement[J]. Construction and Building Materials, 2007, 21(8): 1760-1770.
[4]	邓朗妮, 罗日生, 钱香国, 等. 智能碳纤维板嵌入式加固矩形截面钢筋混凝土梁试验研究[J]. 建筑结构, 2019, 49(3): 92-97.
[5]	YAO L Z, WU G. Fiber-element modeling for seismic performance of square RC bridge columns retrofitted with NSM BFRP bars and/or BFRP sheet confinement[J]. Journal of Composites for Construction, 2016, 20(4), 04016001.
[6]	中华人民共和国住房和城乡建设部. 混凝土结构试验方法标准:GB/T 50152—2012[S]. 北京:中国建筑工业出版社,2012.
[7]	中国国家标准化管理委员会. 金属材料拉伸试验第1部分:室温试验方法:GB/T 228.1—2021[S]. 北京:中国标准出版社,2021.
[8]	中华人民共和国住房和城乡建设部. 混凝土结构设计标准: GB/T 50010—2010[S]. 北京: 中国建筑工业出版社, 2024.
[9]	张啸驰,陈建伟,闫文赏,等.圆钢管约束高强灌浆料局部承压性能研究[J].地震工程学报, 2018, 40(3):612-618.
[10]	FARD M Y, LIU Y, CHATTOPADHYAY A. Characterization of epoxy resin including strain rate effects using digital image correlation system[J]. Journal of Aerospace Engineering, 2012, 25(2): 308-319.
[11]	张仁波,白俊杰,金浏,等.CFRP加固高温损伤RC板力学性能数值模拟[J].应用基础与工程科学学报,2023,31(1):138-153.

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

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Experimental Research on Concrete Floor Slabs Strengthened by the Embedded Reinforcement Method

doi: 10.3724/j.gyjzG23092603

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Experimental Research on Concrete Floor Slabs Strengthened by the Embedded Reinforcement Method

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