铁钕磁铁废弃物选择性生成磷酸钕

Q3 Materials Science
H. Onoda, A. Iinuma
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引用次数: 0

摘要

钕铁硼合金n2fe14b被用作磁铁的材料。钕是一种有价值且昂贵的稀土元素,经常被回收以降低成本和对环境的影响。最近报道了一种从混合溶液中回收钕作为磷酸钕的方法。这种方法非常有用,因为稀土矿石的主要成分是稀土磷酸盐,而且从稀土磷酸盐中提炼稀土有成熟的方法。本研究尝试用酸溶解废磁体、还原剂、磷酸和pH调节剂来获得磷酸钕。通过对稀释酸(盐酸和硝酸)、抗坏血酸和磷酸的投加量以及pH值的研究,确定了清渣的适宜条件。热处理产物的颜色、析出物的产率和铁/钕的摩尔比表明,低浓度的酸是合适的,需要使用抗坏血酸。过量使用磷酸改善了沉淀物的组成。较高的pH值容易形成磷酸铁和氢氧化物,降低了磷酸钕的选择性。由于不需要在高温下加热或使用特殊试剂,本研究中处理的过程非常有前途。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Selective formation of neodymium phosphate from iron-neodymium magnet waste
Neodymium-iron-boron alloy, Nd 2 Fe 14 B, is used as a material for magnets. Neodymium is one of the valuable and expensive rare earth elements and is often recovered to reduce costs and environmental impact. Recently, a method for recovering neodymium as neodymium phosphate from mixed solutions was reported. This method was very useful because the main component of rare earth ores is rare earth phosphates, and there are well-established methods for refining rare earths from rare earth phosphates. This study attempts to obtain neodymium phosphate using acid to dissolve waste magnets, reducing agent, phosphoric acid, and pH adjuster. The diluted acid (hydrochloric acid and nitric acid), amount of ascorbic acid and phosphoric acid, and the pH values were studied to clear the suitable conditions. The color of the heat-treated product, the precipitate yield, and the Fe/Nd molar ratio indicated that a low concentration of acid is suitable and ascorbic acid is required. Excessive use of phosphoric acid improved the precipitate composition. The high pH value decreased the selectivity of neodymium phosphate due to the easy formation of iron phosphate and hydroxide. The process addressed in this study is very promising because it does not require heating at high temperatures or special reagents.
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来源期刊
Cerâmica
Cerâmica Materials Science-Ceramics and Composites
CiteScore
1.90
自引率
0.00%
发文量
37
审稿时长
10 weeks
期刊介绍: A Revista Cerâmica, órgão oficial da Associação Brasileira de Cerâmica (ABCERAM) publica contribuições originais de interesse na área de cerâmica, compreendendo arte cerâmica, abrasivos, biocerâmicas, cerâmicas avançadas, cerâmica branca, cerâmica de mesa, cerâmica eletroeletrônica, cerâmica estrutural, cerâmica magnética, cerâmica nuclear, cerâmica óptica, cerâmica química, cerâmica termomecânica, cerâmica vermelha, cimento, compósitos de matriz cerâmica, materiais refratários, materiais de revestimento, matérias-primas, vidrados, vidros e vitrocerâmicas, análise microestrutural, ciência básica, instrumentação, processos de fabricação, síntese de pós, técnicas de caracterização etc.
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