The quantitative analysis of alloy element by femtosecond laser-induced breakdown spectroscopy with sample heating and spatial confinement
LIU Yan-bin1, ZHAO Shang-yong*2, HOU Zong-yu2,3, WANG Zhe2,3, GAO Xun4
1. China Energy Engineering Group Co., Ltd., Beijing 100034, China; 2. State Key Lab of Power Systems, InternationalJoint Laboratory on Low Carbon Clean Energy Innovation, Department of Energyand Power Engineering, TsinghuaUniversity, Beijing 100084, China; 3. Shanxi Research Institute for Clean Energy, Tsinghua University, Taiyuan030032, China; 4. School of Science, Changchun University of Science and Technology, Changchun 130022, China
Abstract:Aluminum alloy was the most commonly used nonferrous metal material in industry, which was formed by adding certain elements, and become an ideal structural materials. How to detect the content of elements in alloy quickly and accurately was also a key problem in production and application. The quantitative analysis of aluminium alloy element by femtosecond laser-induced breakdown spectroscopy methods with sample heating and spatial confinement was investigated. The physical reason of plasma emission spectral intensity enhanced and stability improved was discussed. The experimental results showed that femtosecond laser produced plasma emission spectral intensity effectively enhanced under the sample heating and spatial confinement and the plasma emission delay had a significantly extension with the sample temperature increased. Besides, the Mn element of aluminium alloy series was determined, and the limits of detection, relative standard deviation, R-squared of fs-LIBS under three conditions, including no confinement, spatial confinement and sample heating combined with spatial confinement, were compared. It was found that the limits of detection and relative standard deviation of sample heating at 150℃ combined with spatial confinement was reduced to 1/5 and 1/4 of those obtained by no confinement, respectively, and the R-squared was above 0.99. Hence, the detection sensitivity and analytical precision of alloy element quantitative analysis in LIBS could be improved by combining sample heating and spatial confinement.
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