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Journal of Environmental Science and Health, Part A
Toxic/Hazardous Substances and Environmental Engineering
Volume 46, 2011 - Issue 2
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ARTICLES

Sensitivity enhancement at 594.8 nm atomic transition of Cl I for chloride detection in the reinforced concrete using LIBS

M. A. Gondal Laser Research Group, Physics Department and Center of Excellence in Nanotechnology, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia
,
A. Dastageer Laser Research Group, Physics Department and Center of Excellence in Nanotechnology, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia
,
M. Maslehuddin Center for Engineering Research, Research Institute, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia
,
A. J. Alnehmi Civil Engineering Department, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia
&
O. S. B. Al-Amoudi Civil Engineering Department, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia
Pages 198-203 | Received 11 Jul 2010, Published online: 05 Feb 2011
 
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Abstract

A new atomic line at 594.8 nm of neutral chlorine (Cl I) has been used as a marker to quantify the amount of chloride present in the concrete sample using Laser Induced Breakdown Spectroscopy (LIBS). Although, the relative intensity of the 594.8 nm line is 1000-fold less than that of the most commonly used intense atomic line of Cl I at 837.5 nm reported in the literature, the limit of detection of chlorine achieved with our set-up in the concrete sample using the new line is comparable with the 837.5 nm. This clearly indicates that the sensitivity of the LIBS system for detection of chlorine in concrete sample using 594.8 nm is at least 1000-fold more than the one using 837.5 nm, which can be attributed to the characteristic less self absorption. LIBS data for different concentration of chloride content in concrete sample was also carried out and a calibration curve was drawn. The excitation scheme for 594.8 nm line is also proposed in this work.

Acknowledgments

The support by Center for Research Excellence in Corrosion through project # 01 and KFUPM is gratefully acknowledged.

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