兰州理工大学学报 ›› 2024, Vol. 50 ›› Issue (3): 27-32.

• 材料科学与工程 • 上一篇    下一篇

Mg(HCO3)2沉淀(LaCe)2(SO4)3制备稀土抛光粉及其抛光性能

张全鑫*, 李虎平, 史俊龙, 宿爱, 金玉培, 谢浩   

  1. 甘肃稀土新材料股份有限公司, 甘肃 白银 730922
  • 收稿日期:2023-07-12 出版日期:2024-06-28 发布日期:2024-07-02
  • 通讯作者: 张全鑫(1993-),男,甘肃白银人,工程师.Email:quanxinZhang@163.com

Study on preparation and polishing performance of rare earth polishing powder by precipitation from (LaCe)2(SO4)3 with Mg(HCO3)2

ZHANG Quan-xin, LI Hu-ping, SHI Jun-long, SU Ai, JIN Yu-pei, XIE Hao   

  1. Gansu Rare Earth New Material Limited-Liability Company, Baiyin 730922, China
  • Received:2023-07-12 Online:2024-06-28 Published:2024-07-02

摘要: 以包头混合型稀土矿经浓硫酸强化焙烧、水浸、中和除杂、P507转型预分级的产物(LaCe)2(SO4)3液为初始料液,以硫酸镁废水经碱转、碳化制得的Mg(HCO3)2溶液为沉淀剂,通过沉淀、氟化、焙烧、破碎分级等工序成功制备出一种镧铈稀土抛光粉.对制备的镧铈抛光粉形貌、物相及抛光性能进行表征.结果表明:制备的镧铈稀土抛光粉颗粒成形好,分布较均匀.用其抛光K9玻璃,当累积抛光120 min后,玻璃片抛蚀量可达352 mg,且玻璃片面粗糙度Sa由初始的2.0 nm降低至1.742 nm.而以NH4HCO3沉淀(LaCe)Cl3工艺制备的镧铈抛光粉,在相同抛光条件下玻璃片抛蚀量仅为299 mg,面粗糙度Sa由初始的2.0 nm降低至1.767 nm.因此,在保持相同抛光质量的前提下,Mg(HCO3)2沉淀(LaCe)2(SO4)3工艺制备的镧铈稀土抛光粉综合性能更优.

关键词: 沉淀, 制备, 抛光粉, 抛光性能

Abstract: The initial feed liquid was lanthanum cerium sulfate solution produced from Baotou mixed rare earth ore after intensive roasting with concentrated sulfuric acid, water leaching, neutralization and impurity removal, and P507 transformation before pre-classification. The precipitant was magnesium bicarbonate solution, which was prepared by alkali conversion and carbonization of the magnesium sulfate wastewater. La&Ce rare earth polishing powder was successfully prepared by precipitation, fluorination, roasting, crushing, and grading. The morphology, phase, and polishing performance of La&Ce polishing powder were characterized. The results showed that La&Ce rare earth polishing powder particles are well-formed and evenly distributed. The K9 glass was used for performance testing of prepared polishing powder. The polishing results showed that the accumulated polishing rate reaches 352 mg after 120 minutes, and the surface roughness Sa reduce from the initial 2.0 nm to 1.742 nm. In contrast, lanthanum-cerium polishing powder prepared by precipitation of (LaCe)Cl3 with NH4HCO3 achieves a lower polishing rate of only 299 mg under the same polishing conditions,and the surface roughness Sa decrease to 1.767 nm from the initial 2.0 nm. As a consequence, the comprehensive performance of rare earth polishing powder prepared by Mg(HCO3)2 precipitation (LaCe)2(SO4)3 process is superior while maintaining the same polishing quality.

Key words: precipitate, preparation, polishing powder, polishing performance

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