Recycling of metallic values from discarded tantalum capacitors

IF 0.9 Q3 MINING & MINERAL PROCESSING Mineral Processing and Extractive Metallurgy-Transactions of the Institutions of Mining and Metallurgy Pub Date : 2023-02-14 DOI:10.1080/25726641.2023.2177243

Shaila Mir, N. Dhawan

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引用次数: 1

Abstract

ABSTRACT The generation of electronic waste generation has led to significant attention towards metal recovery from urban sources. Due to scarcity, finite resources, and geopolitical constraints, tantalum recycling from capacitors is essential. In this study, sequential separation involving the removal of tightly bound epoxy resin and metallic impurities is carried out. Pyrolysis as a pre-treatment and its response on phase transformation, resin decomposition and metal enrichment are investigated. Pyrolysis effectively liberates the tantalum–rich sintered core from outer resin which is followed by mild organic acid leaching. The manganese impurity was removed from the core to obtain Ta recovery of ∼94.8% with ∼96% purity in the leach residue. The separated resin component was subjected to conventional sink-float separation for the recovery of metallic values (silver, tantalum). It is found that 100 g (666 units) of Ta capacitors can yield 34 g of Ta, equivalent to 0.28 tons of primary ore.

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从废弃钽电容器中回收金属价值

摘要电子垃圾的产生引起了人们对从城市来源回收金属的极大关注。由于稀缺、资源有限和地缘政治限制，从电容器中回收钽至关重要。在本研究中，进行了顺序分离，包括去除紧密结合的环氧树脂和金属杂质。研究了作为预处理的热解及其对相变、树脂分解和金属富集的响应。热解有效地将富含钽的烧结芯从外部树脂中释放出来，然后进行温和的有机酸浸出。从岩心中去除锰杂质，以获得约94.8%的Ta回收率，浸出残渣中的纯度为约96%。将分离的树脂组分进行常规的沉浮分离以回收金属值（银、钽）。发现100 g（666个单位）的Ta电容器可以产生34 g钽，相当于0.28吨原矿。

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Mineral Processing and Extractive Metallurgy-Transactions of the Institutions of Mining and Metallurgy MINING & MINERAL PROCESSING-

CiteScore

3.50

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