Analytical system for the analysis of ferrovanadium using spark ablation coupled with inductively coupled plasma atomic emission spectrometry

Coedo, Aurora Gómez; López, Teresa Dorado; Cobo, Isabel G.; Baquero, Esther Escudero

doi:10.1039/ja9920700247

Cited by 10 publications

(3 citation statements)

References 4 publications

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“…In analytical chemistry, spark ablation combined with inductively coupled plasma mass spectrometry (SA-ICPMS) or atomic emission spectrometry (SA-ICPAES) has been successfully applied for the bulk analysis of alloy steels [8], ferrovanadium [9], and automotive catalytic converters [10], and there are several reports illustrating an arc nebulization technique used for elemental analysis [11,12]. These techniques have already proven to be efficient in the field of direct solid analysis.…”

Section: Introductionmentioning

confidence: 98%

Depth profiling of nanometer thin layers by pulsed micro-discharge with inductively coupled plasma mass spectrometry

Cheng

Liu

Hang

et al. 2015

Spectrochimica Acta Part B: Atomic Spectroscopy

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Section: Introductionmentioning

confidence: 98%

Depth profiling of nanometer thin layers by pulsed micro-discharge with inductively coupled plasma mass spectrometry

Cheng

Liu

Hang

et al. 2015

Spectrochimica Acta Part B: Atomic Spectroscopy

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“…As part of continuing research work on spark ablation ICP applied to steel industry products, the technique was used as a rapid system for the semi-quantitative analysis of ferroalloys. In previous works 13,14 SA-ICP-AES (atomic emission spectroscopy) was applied to the analysis of Fe-V and Fe-Cr from remelted bulk m etal samples, to electrical arc furnace dusts from graphite pellets 15 and to low-alloyed steels; 16 SA-ICP-MS has recently been used for trace analysis in low-and high-alloy steels. 17 In this study a semi-quantitative SA-ICP-MS analysis protocol for powdered ferroalloys briquetted into pellets with graphite was developed to match sample matrix and conductivity.…”

Section: Introductionmentioning

confidence: 99%

Spark Ablation Inductively Coupled Plasma Mass Spectrometry Applied to the Semi-Quantitative Panoramic Analysis of Ferroalloys

et al. 2000

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The coupling of inductively coupled plasma mass spectrometry (ICP-MS) with spark ablation (SA) was applied for the semi-quantitative determination of impurities in different types of ferroalloys. The sparking operating conditions were optimized, and a restrictive path including a cyclone and a spray chamber was used to decrease the quantity of sparked material reaching the plasma, to prevent torch injector and sampling cone blockage. Samples were mixed in a 1:2 sample-to-graphite ratio and pressed into pellets for direct solid sampling by the spark. The advantage of the technique includes the benefit of easily determining some refractory elements that are very difficult to dissolve. The method was tested on three different types of ferroalloys: Fe-Ti, Fe-Nb, and Fe-V. A single standard ferroalloy sample was used as an external calibration sample to create a complete response curve for each type of ferroalloy base. Industrial ferroalloys, chemically characterized by using different analytical methods, were applied as calibration samples. The use of a calibration sample closely matching the ferroalloy material to be analyzed was found to be essential if accurate analyses were to be obtained. Certified Reference Materials of the three ferroalloys types tested—BAS (Bureau of Analyzed Samples) 579-1 (Fe-Nb alloy); BAM (Bundesanstalt für Materialprüfung) 589-1 (Fe-Ti alloy); and BAS 577-1 (Fe-V alloy)—were analyzed to evaluate the accuracy attainable in this panoramic mode. Most of the results, ranging from 0.05% to 5% m/m, were observed to be accurate to within 6–18.6% of the certified value, and the precision was better than 17.8% relative standard deviation. Determination limits based on 10 times the standard deviation of six replicates of a blank graphite pellet were on the μg g−1 level.

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“…Over the years, many different analytical techniques have been used for the analysis of ultra-high-purity metals. These include graphite-furnace atomic absorption (GFAA) [1], inductively coupled plasma optical emission spectroscopy (ICP-OES) [2], neutron activation analysis (NAA) [3], and glow-discharge mass spectrometry (GDMS) [4]. Recently, however, the demand has been for higher-purity metals.…”

Section: Introductionmentioning

confidence: 99%

Trace Elemental Analysis of Metals by Laser Ablation Inductively Coupled Plasma Time-of-Flight Mass Spectrometry

Allen

Georgitis

Myers

et al. 1998

phys. stat. sol. (a)

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Inductively coupled plasma mass spectrometry (ICP‐MS) has become the technique of choice for trace elemental analysis recently. Much work has focused on direct solid‐sample introduction techniques for ICP‐MS, with laser ablation (LA) showing the most promise. Photographs taken of the LA craters are used to demonstrate independent optimization of the ablation event. The type of optimization used will depend on the individual analysis requirements. An axial time‐of‐flight (TOF) mass spectrometer is used in conjunction with the ICP for the direct analysis of metals. Using this combination, inhomogeneities of specific trace metals (Nd, Zr, and Ta) in certified standard reference materials were found, while other metals remained homogeneous. These results are confirmed using steady‐state scanning of the sample and individual spot analysis.

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Analytical system for the analysis of ferrovanadium using spark ablation coupled with inductively coupled plasma atomic emission spectrometry

Cited by 10 publications

References 4 publications

Depth profiling of nanometer thin layers by pulsed micro-discharge with inductively coupled plasma mass spectrometry

Depth profiling of nanometer thin layers by pulsed micro-discharge with inductively coupled plasma mass spectrometry

Spark Ablation Inductively Coupled Plasma Mass Spectrometry Applied to the Semi-Quantitative Panoramic Analysis of Ferroalloys

Trace Elemental Analysis of Metals by Laser Ablation Inductively Coupled Plasma Time-of-Flight Mass Spectrometry

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