Modeling studies on the development of a system for real-time magnetic-field imaging of steel reinforcing bars embedded within reinforced concrete

Sung Quek; Diego Benitez; Patrick Gaydecki; Vladimir Torres

doi:10.1109/TIM.2007.911620

Modeling studies on the development of a system for real-time magnetic-field imaging of steel reinforcing bars embedded within reinforced concrete

Sung Quek
, Diego Benitez
, Patrick Gaydecki
, Vladimir Torres

Research output: Contribution to journal › Article › peer-review

Abstract

This paper addresses fundamental issues associated with the development of a real-time magnetic-field imaging system for nondestructive testing of prestressed and reinforced concrete. Modeling results have shown that with a square coil of 300 × 300 × 2.5 × mm3, 10-mm rebars can be imaged down to a depth of 100 mm. Studies also indicate that the vertical component of the induced magnetic field is most favorable as it can readily be reconstructed to yield geometry and dimensional information pertaining to the rebar structure. © 2008 IEEE.

Original language	English
Pages (from-to)	571-576
Number of pages	5
Journal	IEEE Transactions on Instrumentation and Measurement
Volume	57
Issue number	3
DOIs	https://doi.org/10.1109/TIM.2007.911620
Publication status	Published - Mar 2008

Keywords

Bar mesh
Boundary element method (BEM)
DC magnetic field
Real-time magnetic imaging

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10.1109/TIM.2007.911620

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title = "Modeling studies on the development of a system for real-time magnetic-field imaging of steel reinforcing bars embedded within reinforced concrete",

abstract = "This paper addresses fundamental issues associated with the development of a real-time magnetic-field imaging system for nondestructive testing of prestressed and reinforced concrete. Modeling results have shown that with a square coil of 300 × 300 × 2.5 × mm3, 10-mm rebars can be imaged down to a depth of 100 mm. Studies also indicate that the vertical component of the induced magnetic field is most favorable as it can readily be reconstructed to yield geometry and dimensional information pertaining to the rebar structure. {\textcopyright} 2008 IEEE.",

keywords = "Bar mesh, Boundary element method (BEM), DC magnetic field, Real-time magnetic imaging",

author = "Sung Quek and Diego Benitez and Patrick Gaydecki and Vladimir Torres",

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AU - Gaydecki, Patrick

AU - Torres, Vladimir

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N2 - This paper addresses fundamental issues associated with the development of a real-time magnetic-field imaging system for nondestructive testing of prestressed and reinforced concrete. Modeling results have shown that with a square coil of 300 × 300 × 2.5 × mm3, 10-mm rebars can be imaged down to a depth of 100 mm. Studies also indicate that the vertical component of the induced magnetic field is most favorable as it can readily be reconstructed to yield geometry and dimensional information pertaining to the rebar structure. © 2008 IEEE.

AB - This paper addresses fundamental issues associated with the development of a real-time magnetic-field imaging system for nondestructive testing of prestressed and reinforced concrete. Modeling results have shown that with a square coil of 300 × 300 × 2.5 × mm3, 10-mm rebars can be imaged down to a depth of 100 mm. Studies also indicate that the vertical component of the induced magnetic field is most favorable as it can readily be reconstructed to yield geometry and dimensional information pertaining to the rebar structure. © 2008 IEEE.

KW - Bar mesh

KW - Boundary element method (BEM)

KW - DC magnetic field

KW - Real-time magnetic imaging

U2 - 10.1109/TIM.2007.911620

DO - 10.1109/TIM.2007.911620

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JO - IEEE Transactions on Instrumentation and Measurement

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ER -

Modeling studies on the development of a system for real-time magnetic-field imaging of steel reinforcing bars embedded within reinforced concrete

Abstract

Keywords

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