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THz Spectroscopic Study of Iron Oxide Layers within Steel-Reinforced Structural Components

Published online by Cambridge University Press:  26 September 2011

D. F. Plusquellic ,
V. Provenzano  and
S. G. Chou
D. F. Plusquellic
Affiliation:
Physical Measurement Laboratory, National Institute of Standard and Technology, Gaithersburg, MD20899
V. Provenzano
Affiliation:
Material Measurement Laboratory, National Institute of Standard and Technology, Gaithersburg, MD20899
S. G. Chou
Affiliation:
Physical Measurement Laboratory, National Institute of Standard and Technology, Gaithersburg, MD20899
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Abstract

In this study, we use THz spectroscopy in the energy range between 45 GHz to 3000 GHz (1.5 cm-1 and 100 cm-1) as a non-destructive diagnostic tool to characterize the corrosion by-products (rust) on aged steel structural components that are usually embedded in concrete. The THz radiation has been shown to penetrate concrete with extinction coefficients between (1.0 to 2.3) x 10-2 GHz-1 cm-1, depending on the composition and the moisture content of the concrete. The previously reported antiferromagnetic resonance (AFR) near 140 GHz in iron oxide composites was found to be less than our current detection sensitivity (fractional absorbance sensitivity of >10%). However, a strong transition centered near 725 GHz (24 cm-1) has been observed for the first time. This feature has appeared in reflection from several different samples of mildly corroded steel plates and has been tentatively attributed to a broad phonon density of states commonly referred to as the “Boson peak” found in disordered materials. By taking advantage of this strong transition and a powerful excitation sources in the AFR region, we expect THz spectroscopy and imaging to be an effective diagnostic tool with broad applications in corrosion diagnostics and inspection.

Keywords

corrosionsteelMössbauer effect
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1296: Symposium O – New Methods in Steel Design—Steel Ab Initio , 2011 , mrsf10-1319-o03-10
Copyright
Copyright © Materials Research Society 2011

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References

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