Flotation behavior and mechanism of a new amphoteric collector on the flotation separation of spodumene from albite and quartz under low temperature

IF 6.3 2区材料科学 Q2 CHEMISTRY, PHYSICAL

Applied Surface Science Pub Date : 2025-06-22 DOI:10.1016/j.apsusc.2025.163884

Huiwen Ren, Ruiqi Xie, Siyang Li, Xian Xie, Xiong Tong, Xun Wang, Sheng Jian, Yuan Xiong

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Abstract

The flotation behavior of a new amphoteric collector α- di-n-hexylamino-dodecanoic acid (α-DHDA), at low temperature and without activators and depressants, was investigated through the flotation behavior of individual minerals and synthetic mixed ore. In the individual mineral flotation test, when the pulp pH value of 5, a temperature of 10 °C, and a collector concentration of 141 mg/L, the flotation difference between spodumene and albite was 75.27 %, and the flotation disparity between quartz and spodumene was 74.44 %. In the ternary synthetic mixed ore test, when the pulp pH value of 5, a temperature of 10 °C, and a collector concentration of 165 mg/L, spodumene concentrate with Li2O grade of 5.43 % and recovery of 76.98 % was achieved. The flotation outcomes indicated that the collector α-DHDA performed well in selectivity, collecting ability, and temperature adaptability. The selective adsorption mechanism of α-DHDA was revealed through techniques such as contact angle, adsorption capacity, zeta potential, FT-IR, XPS, and ToF-SIMS surface analysis. The findings revealed that α-DHDA could chemically bind to the surfaces of spodumene, albite, and quartz, but due to the differing numbers and activity of active site on the mineral surface, α-DHDA formed stable monolayer chemisorption on the spodumene surface (mainly through the Al site and secondarily through the Si site), which significantly enhancing its hydrophobicity. On the surfaces of albite and quartz, disordered multilayer reverse adsorption easily formed, making it difficult to effectively improve surface hydrophobicity, so as to achieve the effective separation of spodumene from gangue minerals.

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一种新型两性捕收剂对锂辉石与钠长石、石英低温浮选分离的浮选行为及机理研究

通过对单个矿物和合成混合矿的浮选行为，研究了新型两性捕收剂α-二正己胺十二烷酸（α- dhda）在低温、无活化剂和抑制剂条件下的浮选行为。在单个矿物浮选试验中，矿浆pH = 5、温度为10 ℃、捕收剂浓度为141 mg/L时，锂辉石与钠长石的浮选差为75.27 %；石英与锂辉石的浮选差值为74.44 %。在三元合成混矿试验中，当矿浆pH = 5、温度为10 ℃、捕收剂浓度为165 mg/L时，可获得Li2O品位为5.43 %、回收率为76.98 %的锂辉石精矿。浮选结果表明，捕收剂α-DHDA具有良好的选择性、捕收能力和温度适应性。通过接触角、吸附量、zeta电位、FT-IR、XPS和ToF-SIMS表面分析等技术揭示了α-DHDA的选择性吸附机理。结果表明，α-DHDA能与锂辉石、钠长石和石英表面发生化学结合，但由于矿物表面活性位点数量和活性的不同，α-DHDA在锂辉石表面形成稳定的单层化学吸附（主要通过Al位点，其次通过Si位点），从而显著增强了其疏水性。在钠长石和石英表面容易形成无序的多层反吸附，难以有效提高表面疏水性，从而实现锂辉石与脉石矿物的有效分离。

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来源期刊

Applied Surface Science 工程技术-材料科学：膜

CiteScore

12.50

自引率

7.50%

发文量

3393

审稿时长

67 days

期刊介绍： Applied Surface Science covers topics contributing to a better understanding of surfaces, interfaces, nanostructures and their applications. The journal is concerned with scientific research on the atomic and molecular level of material properties determined with specific surface analytical techniques and/or computational methods, as well as the processing of such structures.