Electrical resistivity measurements to determine the steel fiber content of concrete

Cleven, Simon; Raupach, Michael; Matschei, Thomas

doi:10.1002/suco.202100832

Structural Concrete

2022

DOI: 10.1002/suco.202100832

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Electrical resistivity measurements to determine the steel fiber content of concrete

Simon Cleven

Michael Raupach

Thomas Matschei

Abstract: Although steel fiber reinforced concrete is becoming increasingly popular in the construction industry, its application is currently limited to certain areas.One reason is the lack of an economical non-destructive testing method to determine the content, distribution, and orientation of steel fibers in fresh and hardened concrete. However, these parameters are decisive for the assessment

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Cited by 4 publications

References 62 publications

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Recent advances in embedded technologies and self‐sensing concrete for structural health monitoring

Civera,

Naseem,

Chiaia

2024

Structural Concrete

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Fully embedded and spatially diffuse sensors are central to the advancement of civil and construction engineering. Indeed, they serve as an enabling technology necessary for addressing the current challenges associated with through‐life management and structural health monitoring of existing structures and infrastructures. The need to identify structural issues early on has driven the integration of such embedded sensing capabilities into construction materials, turning passive structures into proactive, self‐aware “entities,” commonly referred to as Smart Structures. The economic rationale behind this endeavor is underscored by the vital significance of continuous monitoring, which enables prompt anomaly assessment and thus mitigates the risks of potential structural failures. This is particularly relevant for road and rail infrastructures, as they represent a substantial and enduring investment for any nation. Given that a large majority of these large infrastructures are composed of concrete and reinforced concrete, both academics and construction companies are continuously researching micro‐ and nano‐engineered self‐sensing solutions specifically tailored for this building material. This comprehensive review paper reports the latest advances in the field of self‐sensing concrete as of 2024, with an emphasis on intrinsic self‐sensing concrete, that is, electrically conductive functional fillers. A critical analysis and a discussion of the findings are provided. Based on the perceived existing gaps and demands from the industry, the field's future perspectives are also briefly outlined.

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Recent advances in embedded technologies and self‐sensing concrete for structural health monitoring

Civera,

Naseem,

Chiaia

2024

Structural Concrete

View full text Add to dashboard Cite

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Application of electrical resistivity and induced polarization for identification and erosion assessment in fine-grained soils – A case study

Ebrahimi,

Osouli,

Farzalizadeh

et al. 2024

Transportation Geotechnics

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Basalt Fiber Reinforced Concrete: A Compressive Review on Durability Aspects

et al. 2023

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The creation of sustainable composites reinforced with natural fibers has recently drawn the interest of both industrial and academics. Basalt fiber (BF) stands out as the most intriguing among the natural fibers that may be utilized as reinforcement due to their characteristics. Numerous academics have conducted many tests on the strength, durability, temperature, and microstructure characteristics of concrete reinforced with BF and have found promising results. However, because the information is dispersed, readers find it problematic to assess the advantages of BF reinforced concrete, which limits its applications. Therefore, a condensed study that provides the reader with an easy route and summarizes all pertinent information is needed. The purpose of this paper (Part II) is to undertake a compressive assessment of basalt fiber reinforced concrete’s durability features. The results show that adding BF significantly increased concrete durability. The review also identifies a research deficiency that must be addressed before BF is used in practice.

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Electrical resistivity measurements to determine the steel fiber content of concrete

Cited by 4 publications

References 62 publications

Recent advances in embedded technologies and self‐sensing concrete for structural health monitoring

Recent advances in embedded technologies and self‐sensing concrete for structural health monitoring

Application of electrical resistivity and induced polarization for identification and erosion assessment in fine-grained soils – A case study

Basalt Fiber Reinforced Concrete: A Compressive Review on Durability Aspects

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