CO 气氛下氟碳铈矿的热分解行为及反应机理

金属矿山 ›› 2026, Vol. 55 ›› Issue (1): 101-108.

CO 气氛下氟碳铈矿的热分解行为及反应机理

张　强^1,2,3　孙永升^1,2,3　高　鹏^1,2,3　李艳军^1,3　韩跃新^1,2,3

1. 东北大学资源与土木工程学院,辽宁沈阳 110819;2. 东北大学矿物加工科学与技术全国重点实验室,辽宁沈阳 110819;
3. 难采选铁矿资源高效开发利用技术国家地方联合工程研究中心,辽宁沈阳 110819

出版日期:2026-01-15 发布日期:2026-02-12
通讯作者: 孙永升(1986—),男,教授,博士,博士研究生导师。
作者简介:张　强(1996—),男,特聘副研究员,博士研究生。
基金资助:
“十四五”国家重点研发计划项目(编号:2021YFC2901000);国家资助博士后人员计划项目(编号:GZC20251249)。

Thermal Decomposition Behavior and Reaction Mechanism of Bastnaesite in CO Atmosphere

ZHANG Qiang^1,2,3　SUN Yongsheng^1,2,3　GAO Peng^1,2,3　LI Yanjun^1,2,3　HAN Yuexin^1,2,3

1. School of Resources and Civil Engineering,Northeastern University,Shenyang 110819,China;
2. State Key Laboratory of Mineral Processing,Northeastern University,Shenyang 110819,China;3. National-local Joint
Engineering Research Center of High-efficient Exploitation Technology for Refractory Iron Ore Resources,Shenyang 110819,China

Online:2026-01-15 Published:2026-02-12

摘要/Abstract

摘要： 为推动含铁稀土矿的高效开发,研究了氟碳铈矿在CO 气氛下的热分解行为及其反应机理。结果表明,
氟碳铈矿热分解的主要气体产物为CO₂,释放速率随温度升高而加快,高温有利于反应的迅速进行。氟碳铈矿在CO
气氛下首先生成REOF,随后暴露在空气中进一步氧化为REF₃ 与Ce₇O₁₂ 等产物。热分解显著破坏了颗粒结构,内部
形成了长条状狭缝和大量微孔,孔隙率显著增加,伴随部分颗粒破碎并转化为细粒级产物。等温动力学分析表明,该
过程符合随机成核与随后生长机制(n =2),其机理函数为g(α) = [ - ln(1 - α)]^{1/ 2},反应表观活化能为74. 05±5. 61
kJ/ mol。研究结果为含铁稀土矿的“还原焙烧—磁选—浮选”工艺优化提供了理论支持。

Abstract: To promote the efficient utilization of iron-bearing rare earth ores,the thermal decomposition behavior and reaction
mechanism of bastnaesite in a CO atmosphere were investigated. The results indicate that CO₂ is the main gaseous product
during decomposition,and its release rate increases with temperature,indicating accelerated reaction kinetics at elevated
temperatures. Bastnaesite first decomposes to form REOF under a CO atmosphere,followed by oxidation in air to produce REF₃
and Ce₇O₁₂. The decomposition process significantly disrupts the particle structure,leading to the formation of elongated cracks
and abundant micropores,increased porosity,and partial fragmentation into finer particles. Isothermal kinetic analysis reveals
that the reaction follows a random nucleation and subsequent growth model (n =2),with the kinetic function g(α) = [ - ln(1
- α)]^{1/ 2} and an apparent activation energy of 74. 05±5. 61 kJ/ mol. These findings provide theoretical support for optimizing
the “reduction roasting-magnetic separation-flotation” process in the development of iron-bearing rare earth resources.

中图分类号:

TD955

张　强, 　孙永升, 　高　鹏, 　李艳军, 　韩跃新, . CO 气氛下氟碳铈矿的热分解行为及反应机理[J]. 金属矿山, 2026, 55(1): 101-108.

ZHANG Qiang, 　SUN Yongsheng, 　GAO Peng, 　LI Yanjun, 　HAN Yuexin, . Thermal Decomposition Behavior and Reaction Mechanism of Bastnaesite in CO Atmosphere[J]. Metal Mine, 2026, 55(1): 101-108.

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