The steel–concrete interface

Ueli M. Angst; Mette Rica Geiker; Alexander Michel; Christoph Gehlen; Hong Wong; O. Burkan Isgor; Bernhard Elsener; Carolyn M. Hansson; Raoul Francois; Karla Hombostel; Rob Polder; Maria Cruz Alonso; Mercedes  Sanchez; Maria Joao  Correia; Maria Criado; A. Sagüés; Nick Buenfeld

doi:10.1617/s11527-017-1010-1

The steel–concrete interface

Ueli M. Angst, Mette Rica Geiker, Alexander Michel, Christoph Gehlen, Hong Wong, O. Burkan Isgor, Bernhard Elsener, Carolyn M. Hansson, Raoul Francois, Karla Hombostel, Rob Polder, Maria Cruz Alonso, Mercedes Sanchez, Maria Joao Correia, Maria Criado, A. Sagüés, Nick Buenfeld

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Abstract

Although the steel–concrete interface (SCI) is widely recognized to influence the durability of reinforced concrete, a systematic overview and detailed documentation of the various aspects of the SCI are lacking. In this paper, we compiled a comprehensive list of possible local characteristics at the SCI and reviewed available information regarding their properties as well as their occurrence in engineering structures and in the laboratory. Given the complexity of the SCI, we suggested a systematic approach to describe it in terms of local characteristics and their physical and chemical properties. It was found that the SCI exhibits significant spatial inhomogeneity along and around as well as perpendicular to the reinforcing steel. The SCI can differ strongly between different engineering structures and also between different members within a structure; particular differences are expected between structures built before and after the 1970/1980s. A single SCI representing all on-site conditions does not exist. Additionally, SCIs in common laboratory-made specimens exhibit significant differences compared to engineering structures. Thus, results from laboratory studies and from practical experience should be applied to engineering structures with caution. Finally, recommendations for further research are made.

Original language	English
Journal	Materials and Structures
Volume	50
Issue number	143
Number of pages	24
ISSN	1359-5997
DOIs	https://doi.org/10.1617/s11527-017-1010-1
Publication status	Published - 2017

Keywords

Steel–concrete interface
Interfacial transition zone
Durability
Corrosion
Inhomogeneity
Variability

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title = "The steel–concrete interface",

abstract = "Although the steel–concrete interface (SCI) is widely recognized to influence the durability of reinforced concrete, a systematic overview and detailed documentation of the various aspects of the SCI are lacking. In this paper, we compiled a comprehensive list of possible local characteristics at the SCI and reviewed available information regarding their properties as well as their occurrence in engineering structures and in the laboratory. Given the complexity of the SCI, we suggested a systematic approach to describe it in terms of local characteristics and their physical and chemical properties. It was found that the SCI exhibits significant spatial inhomogeneity along and around as well as perpendicular to the reinforcing steel. The SCI can differ strongly between different engineering structures and also between different members within a structure; particular differences are expected between structures built before and after the 1970/1980s. A single SCI representing all on-site conditions does not exist. Additionally, SCIs in common laboratory-made specimens exhibit significant differences compared to engineering structures. Thus, results from laboratory studies and from practical experience should be applied to engineering structures with caution. Finally, recommendations for further research are made.",

keywords = "Steel–concrete interface, Interfacial transition zone, Durability, Corrosion, Inhomogeneity, Variability",

author = "Angst, {Ueli M.} and Geiker, {Mette Rica} and Alexander Michel and Christoph Gehlen and Hong Wong and Isgor, {O. Burkan} and Bernhard Elsener and Hansson, {Carolyn M.} and Raoul Francois and Karla Hombostel and Rob Polder and Alonso, {Maria Cruz} and Mercedes Sanchez and Correia, {Maria Joao} and Maria Criado and A. Sag{\"u}{\'e}s and Nick Buenfeld",

year = "2017",

doi = "10.1617/s11527-017-1010-1",

language = "English",

volume = "50",

journal = "Materials and Structures",

issn = "1359-5997",

publisher = "Springer Netherlands",

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T1 - The steel–concrete interface

AU - Angst, Ueli M.

AU - Geiker, Mette Rica

AU - Michel, Alexander

AU - Gehlen, Christoph

AU - Wong, Hong

AU - Isgor, O. Burkan

AU - Elsener, Bernhard

AU - Hansson, Carolyn M.

AU - Francois, Raoul

AU - Hombostel, Karla

AU - Polder, Rob

AU - Alonso, Maria Cruz

AU - Sanchez, Mercedes

AU - Correia, Maria Joao

AU - Criado, Maria

AU - Sagüés, A.

AU - Buenfeld, Nick

PY - 2017

Y1 - 2017

N2 - Although the steel–concrete interface (SCI) is widely recognized to influence the durability of reinforced concrete, a systematic overview and detailed documentation of the various aspects of the SCI are lacking. In this paper, we compiled a comprehensive list of possible local characteristics at the SCI and reviewed available information regarding their properties as well as their occurrence in engineering structures and in the laboratory. Given the complexity of the SCI, we suggested a systematic approach to describe it in terms of local characteristics and their physical and chemical properties. It was found that the SCI exhibits significant spatial inhomogeneity along and around as well as perpendicular to the reinforcing steel. The SCI can differ strongly between different engineering structures and also between different members within a structure; particular differences are expected between structures built before and after the 1970/1980s. A single SCI representing all on-site conditions does not exist. Additionally, SCIs in common laboratory-made specimens exhibit significant differences compared to engineering structures. Thus, results from laboratory studies and from practical experience should be applied to engineering structures with caution. Finally, recommendations for further research are made.

AB - Although the steel–concrete interface (SCI) is widely recognized to influence the durability of reinforced concrete, a systematic overview and detailed documentation of the various aspects of the SCI are lacking. In this paper, we compiled a comprehensive list of possible local characteristics at the SCI and reviewed available information regarding their properties as well as their occurrence in engineering structures and in the laboratory. Given the complexity of the SCI, we suggested a systematic approach to describe it in terms of local characteristics and their physical and chemical properties. It was found that the SCI exhibits significant spatial inhomogeneity along and around as well as perpendicular to the reinforcing steel. The SCI can differ strongly between different engineering structures and also between different members within a structure; particular differences are expected between structures built before and after the 1970/1980s. A single SCI representing all on-site conditions does not exist. Additionally, SCIs in common laboratory-made specimens exhibit significant differences compared to engineering structures. Thus, results from laboratory studies and from practical experience should be applied to engineering structures with caution. Finally, recommendations for further research are made.

KW - Steel–concrete interface

KW - Interfacial transition zone

KW - Durability

KW - Corrosion

KW - Inhomogeneity

KW - Variability

U2 - 10.1617/s11527-017-1010-1

DO - 10.1617/s11527-017-1010-1

M3 - Journal article

SN - 1359-5997

VL - 50

JO - Materials and Structures

JF - Materials and Structures

IS - 143

ER -

The steel–concrete interface

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