Experiments on rare‐earth element extractions from umber ores for optimizing the grinding process

Yutaro Takaya*, Meiqi Wang, Koichiro Fujinaga, Etsuo Uchida, Tatsuo Nozaki, Yasuhiro Kato

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

3 Citations (Scopus)


Ancient hydrothermal metalliferous sediments (umber) have recently attracted attention as a new rare‐earth element resource. We conducted chemical leaching experiments on three different umber ores to optimize the hydrometallurgical extraction process, especially regarding the grinding process. The three umber ore samples, which were collected from Japanese accretionary complexes (Kuminiyama and Aki umber) and Troodos ophiolite (Cyprus umber), had different chemical, mineral, and physical properties, and showed different leaching behaviors. The experimental results revealed that the physical properties (density and P‐wave propagation velocity) principally controlled the extent of REY (lanthanides and yttrium) extraction from the umber ore samples, and REY extraction from umber samples clearly increased with the decrease in the density and P‐wave propagation velocity. The differences in physical properties of the umber samples are attributable to the pressure and thermal history of each ore sample, and it was revealed that umber samples which underwent strong metamorphism are not suitable for actual development. The results also suggested that the optimum particle size (optimum grinding level) of umber samples is simply predictable based on the physical properties. The results of this study should be valuable for future efforts to procure these important mineral resources.

Original languageEnglish
Article number239
Issue number4
Publication statusPublished - 2019 Apr


  • Accretionary complex
  • Chemical leaching
  • Ferromanganese deposits
  • Metalliferous sediment
  • REY

ASJC Scopus subject areas

  • Geotechnical Engineering and Engineering Geology
  • Geology


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