Chemical Characterization in the Production Chain of Permanent Magnets by Inductively Coupled Plasma Optical Emission Spectrometry (ICP OES) – Precise Quantification of Nd, Pr, Fe and B in Super-Magnets Samples

IF 1.1 Q4 CHEMISTRY, ANALYTICAL
R. Papai, Karina Torre, G. Almeida, André da Silva, Thiago Nagasima, Eduardo Jabes, Célia Santos, F. Landgraf, M. Luz
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引用次数: 1

Abstract

Super-magnets, materials whose strong magnetic activity is an attractive differential for the high-tech industry, may have their magnetic performance affected by small variations in their chemical composition. For example, the neodymium and praseodymium content can change the physicochemical properties of the permanent magnets. Aiming at a strict chemical quality control, this work developed an analytical method to quantify the major elements in the materials involved in the production process of didymium (the mixture of neodymium and praseodymium) super-magnets. The simultaneous determination of Nd (401.225 nm), Pr (414.311 nm), Fe (259.837 nm) and B (249.678 nm) in three different sample types (didymium oxide, metallic didymium and (Nd,Pr)-Fe-B alloy) was performed by sample dissolution in acidic media, followed by instrumental measurements using an Inductively Coupled Plasma Optical Emission Spectrometer. Linear calibration curves were obtained with high coefficient of determination (0.9983 ≤ R2 ≤ 0.9999) and with appropriate limits for determining these elements at the percentage level, reaching detection limits less than 0.07 cg g-1. The precision of the method was improved by weighing of the solutions during all the dilution steps and was evaluated by the coefficient of variation associated to instrumental precision (0.3 – 0.7%), method intermediate precision (1.9 – 3.1%) and also by the typical mass fraction provided as uncertainty (0.04 – 0.20 cg g-1), reaching the pressing need to distinguish the content of the rare earth elements in less than 1 cg g-1. The accuracy of the method was assessed by spiked and recovery test (96-104% for spikes equal to or greater than 0.50 cg g-1) and also by the use of different analytical methods, involving the participation of other laboratories, obtaining an acceptable degree of agreement (85 – 107%).
电感耦合等离子体发射光谱法(ICP-OES)对永磁体生产链中的化学表征——超磁体样品中Nd、Pr、Fe和B的精确定量
超级磁体是一种材料,其强磁活性对高科技行业来说是一个有吸引力的区别,其磁性能可能会受到其化学成分微小变化的影响。例如,钕和镨的含量可以改变永磁体的物理化学性质。为了严格控制化学质量,本工作开发了一种分析方法来量化钕(钕和镨的混合物)超级磁体生产过程中所涉及的材料中的主要元素。通过样品在酸性介质中的溶解,然后使用电感耦合等离子体光学发射光谱仪进行仪器测量,同时测定三种不同样品类型(氧化二钇、金属二钇和(Nd,Pr)-Fe-B合金)中的Nd(401.225 nm)、Pr(414.311 nm)、Fe(259.837 nm)和B(249.678 nm)。获得了线性校准曲线,测定系数高(0.9983≤R2≤0.9999),在百分比水平上测定这些元素的限值适当,检测限值小于0.07 cg g-1。通过在所有稀释步骤中对溶液进行称重,提高了该方法的精度,并通过与仪器精度(0.3–0.7%)、方法中间精度(1.9–3.1%)相关的变异系数以及作为不确定度提供的典型质量分数(0.04–0.20 cg g-1)进行了评估,达到了区分稀土元素含量小于1gg-1的迫切需要。该方法的准确性通过加标和回收率测试进行评估(加标量等于或大于0.50 cg g-1时为96-104%),还通过使用不同的分析方法进行评估,包括其他实验室的参与,获得可接受的一致性(85-107%)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.60
自引率
14.30%
发文量
46
期刊介绍: BrJAC is dedicated to the diffusion of significant and original knowledge in all branches of Analytical Chemistry, and is addressed to professionals involved in science, technology and innovation projects at universities, research centers and in industry.
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