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Article Abstract
Tin, which is primarily extracted from cassiterite, finds extensive applications across various domains. Although compared with gravity separation, flotation offers a broader operational flexibility, commonly used collectors struggle to achieve an optimal balance between selectivity and collectability. In this study, a new collector 3-(dodecylthio) propionic acid (3-DTP) with high selectivity enhanced the separation of cassiterite and quartz. Flotation experiments confirmed that 3-DTP could achieve separation efficaciously across a broad pH range and could withstand the impact of unavoidable ions. With a collector concentration of 40 mg/L at pH 6, artificial mixed-minerals experiments of cassiterite yielded a concentrate with SnO grade and recovery of 97.38% and 87.61%, respectively. To further elucidate the adsorption mechanism, contact-angle measurement, zeta potential analysis, FT-IR spectroscopy, XPS analysis, and ToF-SIMS analysis were employed. These analyses revealed that 3-DTP could interact with both quartz and cassiterite. The 3-DTP adsorbed on the surface of quartz through weak hydrogen bonds. However, the amount of 3-DTP adsorbed onto quartz was too low to make the surface hydrophobic. Therefore, their recovery remained poor. Conversely, the S site and the O site of 3-DTP interacted with the Sn site of cassiterite by forming chemical bonds and formed stable adsorption by generating a six-membered ring structure. The chemical reaction was vigorous, which made the surface of cassiterite hydrophobic. Thus, cassiterite achieved a high recovery. Different adsorption behaviors of 3-DTP on the two minerals enable selective separation of cassiterite from quartz.
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Separating Cassiterite from Quartz with New Collector 3-(Dodecylthio) Propionic Acid.
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Faculty of Land Resource Engineering, Kunming University of Science and Technology, Kunming 650093, Yunnan, China.
Tin, which is primarily extracted from cassiterite, finds extensive applications across various domains. Although compared with gravity separation, flotation offers a broader operational flexibility, commonly used collectors struggle to achieve an optimal balance between selectivity and collectability. In this study, a new collector 3-(dodecylthio) propionic acid (3-DTP) with high selectivity enhanced the separation of cassiterite and quartz.
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