光谱学与光谱分析 |
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Optimization Investigation on the Elements in Ferrum Aluminum Silicon Alloy by ICP-AES |
HE Hai-cheng1, 2,ZHANG Guang-xia2,HUANG Zhi-rong1,HE Xi-wen1*,HUANG Xin-ping3, YANG Ti-shao3 |
1. Department of Chemistry, Nankai University,Tianjin 300071,China 2. Department of Chemistry, Langfang Normal College, Langfang 065000,China 3. An Yang Iron and Steel Co. Ltd, Anyang 455004,China |
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Abstract A method for the determination of Al, Fe, Ca, Cr, Mn, Ni, Si and Ti elements in ferrum aluminum silicon alloy by inductively coupled plasma atomic emission spectrometry (ICP-AES) was described. The influence of ICP-AES operating conditions, sample dissolution methods and spectral lines were studied. The preferable experimental conditions were examined, and the influences of coexistent elements on the signals were investigated. The method was applied to the determination of elements in ferrum aluminum silicon alloy samples, and the measured results were in good agreement with the recommended values of the standard steel. The detection limits of the method were 0.029 μg·mL-1 for Al, 0.004 μg·mL-1 for Fe, 0.007 5 μg·mL-1 for Ca, 0.001 5 μg·mL-1 for Cr, 0.000 9 μg·mL-1 for Mn, 0.002 7 μg·mL-1 for Ni, 0.045 μg·mL-1 for Si and 0.003 μg·mL-1 for Ti. The relative standard deviation (n=6) of this method was between 0.3%-1.8%, and the recoveries by standard addition were in the range of 96.7%-102.9%. The method was used to determine the amount of silicon in alloy samples with satisfactory results, which agreed with those by the standard gravimetry. The method is characterized by good precision, easy operation and convenience to apply.
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Received: 2003-04-28
Accepted: 2003-09-16
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Cite this article: |
HE Hai-cheng,ZHANG Guang-xia,HUANG Zhi-rong, et al. Optimization Investigation on the Elements in Ferrum Aluminum Silicon Alloy by ICP-AES [J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2004, 24(07): 887-889.
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http://www.gpxygpfx.com/EN/Y2004/V24/I07/887 |
[1] CHEN Ming-hao(陈名浩). Chinese J. of Anal. Chem.(分析化学),2000,28(3):374. [2] ZHANG Zhuo-yong, CHEN Hang-ting, WANG Dan et al(张卓勇,陈杭停,王 丹等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2002,22(4):673. [3] HAN Li-xin, LI Ran(韩立新,李 冉). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2002,22(2):304. [4] CHEN Jian-guo, YING Xiao-hu, CAO Guo-zhou (陈建国,应晓浒,曹国洲). Metallurgical Analysis(冶金分析),2001,21(1):59.
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