L. Liu scite author profile

L. Liu

4Publications

31Citation Statements Received

0Citation Statements Given

How they've been cited

123

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Yichun University

Publications

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Investigation on self-absorption at reduced air pressure in quantitative analysis using laser-induced breakdown spectroscopy

et al. 2016

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The self-absorption at reduced air pressure for quantitative analysis of Mn and Cu elements in steel using laser-induced breakdown spectroscopy was investigated. The calibration curves of Mn and Cu elements at the air pressures of 100, 80, 50, 20, and 1 kPa were studied. The results show that, the nonlinearity of calibration curves which caused by self-absorption effects at atmosphere could be significantly improved by reducing the air pressure to 1 kPa, and the coefficients of determination (R²) of linear calibration curves of Mn and Cu lines are all higher than 0.99. The further study explored that the reason for the improvement was that the induced plasma became low density and the self-absorption coefficient was close to 1 when the air pressure reduced to 1 kPa.

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One-point and multi-line calibration method in laser-induced breakdown spectroscopy

et al. 2018

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The calibration-free laser-induced breakdown spectroscopy (CF-LIBS) and its variations are low cost, short time consumption, and high adaptability. However, seeking a more flexible and simple quantitative analysis method remains a challenge. A one-point and multi-line calibration (OP-MLC) was presented as a simple quantitative analysis method of LIBS. The results showed that OP-MLC-LIBS method can achieve quantitative analysis using only one standard sample, and the average relative errors (AREs) are 9, 22, 21 and 36% for Mn, Cr, Ni and Ti elements in six tested low-alloy steel samples, respectively. The method requires neither a large number of standard samples nor complicated calculations, which provides a flexible and low-cost quantitative analysis approach for development and application of LIBS.

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Study on TBCs insulation characteristics of a turbine blade under serving conditions

Liu

et al. 2016

Case Studies in Thermal Engineering

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Film cooling modeling of a turbine vane with multiple configurations of holes

Liu

2018

Case Studies in Thermal Engineering

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L. Liu

Investigation on self-absorption at reduced air pressure in quantitative analysis using laser-induced breakdown spectroscopy

One-point and multi-line calibration method in laser-induced breakdown spectroscopy

Study on TBCs insulation characteristics of a turbine blade under serving conditions

Film cooling modeling of a turbine vane with multiple configurations of holes

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