Study on the influence of roughness and coarse aggregate area on UHPC-NC interface bonding performance
The aim of this study is to clarify the effect of roughening the surface of normal concrete (NC) substrates on the interfacial bonding performance, and the effect of substrate surface roughness and coarse aggregate area on the interfacial bonding performance was investigated by digital image technol...
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| Published in | Materials and structures Vol. 57; no. 10 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Springer Netherlands
01.12.2024
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1359-5997 1871-6873 |
| DOI | 10.1617/s11527-024-02507-7 |
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| Abstract | The aim of this study is to clarify the effect of roughening the surface of normal concrete (NC) substrates on the interfacial bonding performance, and the effect of substrate surface roughness and coarse aggregate area on the interfacial bonding performance was investigated by digital image technology. The results showed that the shear damage model of the roughened ultra-high performance concrete (UHPC) and NC composite specimens was divided into linear elasticity, yielding, and damage stages; the failure loads of the gouge interface group and the high-pressure water jet interface group were elevated by 18.3–33.9% and 43.0–140.0%, respectively, compared with those of the smooth interface group. In addition, the chiselled interface group and high-pressure water jetting interface group obtained an overall failure load of 44.2–50.0% and 53.4–90.0%, respectively; the exposed area of coarse aggregate on the substrate surface and the roughness of the concrete surface of the substrate showed a linear correlation with the interfacial shear strength, and the presence of coarse aggregate provided more mechanical anchorage points at the interface and increased the contact area with the UHPC. Substrate surface roughness increased the probability of steel fibre insertion into the groove of the substrate, and the formation of pin effect and bridge effect at the interface improved the shear slip capacity and bond strength at interface failure; substrate concrete surface roughness is a key parameter affecting the secondary damage of the UHPC-NC interface, and the degree of interface damage increased linearly with the increase of roughness. |
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| AbstractList | The aim of this study is to clarify the effect of roughening the surface of normal concrete (NC) substrates on the interfacial bonding performance, and the effect of substrate surface roughness and coarse aggregate area on the interfacial bonding performance was investigated by digital image technology. The results showed that the shear damage model of the roughened ultra-high performance concrete (UHPC) and NC composite specimens was divided into linear elasticity, yielding, and damage stages; the failure loads of the gouge interface group and the high-pressure water jet interface group were elevated by 18.3–33.9% and 43.0–140.0%, respectively, compared with those of the smooth interface group. In addition, the chiselled interface group and high-pressure water jetting interface group obtained an overall failure load of 44.2–50.0% and 53.4–90.0%, respectively; the exposed area of coarse aggregate on the substrate surface and the roughness of the concrete surface of the substrate showed a linear correlation with the interfacial shear strength, and the presence of coarse aggregate provided more mechanical anchorage points at the interface and increased the contact area with the UHPC. Substrate surface roughness increased the probability of steel fibre insertion into the groove of the substrate, and the formation of pin effect and bridge effect at the interface improved the shear slip capacity and bond strength at interface failure; substrate concrete surface roughness is a key parameter affecting the secondary damage of the UHPC-NC interface, and the degree of interface damage increased linearly with the increase of roughness. |
| ArticleNumber | 222 |
| Author | Wu, Jing Wu, Qiong Chen, Xiaolong Yang, Yanhua Zhang, Jiangjiang Sun, Wen Yang, Shenqi |
| Author_xml | – sequence: 1 givenname: Wen surname: Sun fullname: Sun, Wen email: sunwen@lzjtu.edu.cn organization: School of Civil Engineering, Lanzhou Jiaotong University – sequence: 2 givenname: Jiangjiang surname: Zhang fullname: Zhang, Jiangjiang organization: School of Civil Engineering, Lanzhou Jiaotong University, Key Laboratory of Road and Bridge and Underground Engineering of Gansu Province, Lanzhou Jiaotong University – sequence: 3 givenname: Shenqi surname: Yang fullname: Yang, Shenqi organization: School of Civil Engineering, Lanzhou Jiaotong University, Key Laboratory of Road and Bridge and Underground Engineering of Gansu Province, Lanzhou Jiaotong University – sequence: 4 givenname: Xiaolong surname: Chen fullname: Chen, Xiaolong organization: School of Civil Engineering, Lanzhou Jiaotong University, Key Laboratory of Road and Bridge and Underground Engineering of Gansu Province, Lanzhou Jiaotong University – sequence: 5 givenname: Jing surname: Wu fullname: Wu, Jing organization: School of Civil Engineering, Lanzhou Jiaotong University, Key Laboratory of Road and Bridge and Underground Engineering of Gansu Province, Lanzhou Jiaotong University – sequence: 6 givenname: Qiong surname: Wu fullname: Wu, Qiong organization: School of Civil Engineering, Lanzhou Jiaotong University, Key Laboratory of Road and Bridge and Underground Engineering of Gansu Province, Lanzhou Jiaotong University – sequence: 7 givenname: Yanhua surname: Yang fullname: Yang, Yanhua organization: Gansu Province Transportation Research Institute Group Co |
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| Keywords | Digital imaging technology UHPC–NC interface Destructive damage behavior Bonding properties Roughness Coarse aggregate |
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| SubjectTerms | Bonding strength Bridge failure Building Materials Civil Engineering Concrete aggregates Contact pressure Damage assessment Digital imaging Engineering Exposed aggregate concretes Failure load Grooves High pressure Hydraulic jets Interfacial bonding Interfacial shear strength Machines Manufacturing Materials Science Original Article Processes Roughening Shear strength Solid Mechanics Steel fibers Surface roughness Theoretical and Applied Mechanics Ultra high performance concrete Water damage |
| Title | Study on the influence of roughness and coarse aggregate area on UHPC-NC interface bonding performance |
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