期刊名：Minerals

期刊主页：https://www.mdpi.com/journal/minerals

本期内容聚焦2025年度Minerals期刊“矿物加工与提取冶金”栏目核心研究成果，精选15篇由期刊学术编辑严格筛选、深度评审的优质文章。诚邀您深入研读，探索领域新进展与学术新视角！

1.

Froth Flotation of Lepidolite—A Review

锂云母泡沫浮选——综述

https://www.mdpi.com/2075-163X/15/7/750

Yang, X.; Feng, B.; Jiang, L. Froth Flotation of Lepidolite—A Review. Minerals 2025, 15, 750.

2.

Effect of Flotation Variables on Slurry Rheological Properties and Flotation Performance of Lead–Zinc Sulfide Ores

浮选变量对矿浆流变特性及铅锌硫化矿浮选性能的影响

https://www.mdpi.com/2075-163X/15/2/187

Luo, K.; Sun, C.; Sun, T. Effect of Flotation Variables on Slurry Rheological Properties and Flotation Performance of Lead–Zinc Sulfide Ores. Minerals 2025, 15, 187.

3.

Research on Optimization of Lifter of an SAG Mill Based on DEM Simulation and Orthogonal Tests and Applications

基于离散元法仿真与正交试验的半自磨机提升条优化研究及应用

https://www.mdpi.com/2075-163X/15/2/193

Wang, G.; Xiao, Q.; Wang, X.; Li, Y.; Jin, S.; Wang, M.; Shao, Y.; Zhang, Q.; Pei, Y.; Liu, R. Research on Optimization of Lifter of an SAG Mill Based on DEM Simulation and Orthogonal Tests and Applications. Minerals 2025, 15, 193.

4.

Comparison of Ferronickel Alloys Produced via Microwave and Conventional Thermal Concentration of Pyrrhotite Tailings

微波与传统热力富集磁黄铁矿尾矿生产的镍铁合金比较

https://www.mdpi.com/2075-163X/15/3/196

Jaansalu, M.; Pickles, C. Comparison of Ferronickel Alloys Produced via Microwave and Conventional Thermal Concentration of Pyrrhotite Tailings. Minerals 2025, 15, 196.

5.

Influence of Particle Shape and Size on Gyratory Crusher Simulations Using the Discrete Element Method

颗粒形状与尺寸对基于离散元法的旋回破碎机模拟的影响

https://www.mdpi.com/2075-163X/15/3/232

Moncada, M.; Rojas, C.; Toledo, P.; Rodríguez, C.G.; Betancourt, F. Influence of Particle Shape and Size on Gyratory Crusher Simulations Using the Discrete Element Method. Minerals 2025, 15, 232.

6.

Techniques of Pre-Concentration by Sensor-Based Sorting and Froth Flotation Concentration Applied to Sulfide Ores—A Review

基于传感器的分选与泡沫浮选富集技术在硫化矿石预富集中的应用——综述

https://www.mdpi.com/2075-163X/15/4/350

Santos, E.G.d.; Brum, I.A.S.d.; Ambrós, W.M. Techniques of Pre-Concentration by Sensor-Based Sorting and Froth Flotation Concentration Applied to Sulfide Ores—A Review. Minerals 2025, 15, 350.

7.

Knowledge-Inference-Based Intelligent Decision Making for Nonferrous Metal Mineral-Processing Flowsheet Design

基于知识推理的有色金属选矿流程设计智能决策

https://www.mdpi.com/2075-163X/15/4/374

Yang, J.; Sun, C.; Zhou, J.; Wang, Q.; Zhang, K.; Song, T. Knowledge-Inference-Based Intelligent Decision Making for Nonferrous Metal Mineral-Processing Flowsheet Design. Minerals 2025, 15, 374.

8.

Investigation of a Novel Depressant for Flotation Separation of Chalcopyrite and Galena: Experiments and Adsorption Mechanisms

新型抑制剂用于黄铜矿与方铅矿浮选分离的研究：实验与吸附机理

https://www.mdpi.com/2075-163X/15/5/454

Zeng, H.; Liu, C.; Lu, T.; Gao, Z.; Zhu, Y.; Sun, C.; Zhao, Z.; Wu, G.; Li, R.; Hu, J. Investigation of a Novel Depressant for Flotation Separation of Chalcopyrite and Galena: Experiments and Adsorption Mechanisms. Minerals 2025, 15, 454.

9.

Surface Physicochemical Property Differences Between Gold-Bearing and Gold-Free Pyrite for Efficient and Clean Processing of Refractory Pyritic Gold Ores

含金黄铁矿与无金黄铁矿的表面物理化学性质差异及其对难处理黄铁矿型金矿高效清洁加工的意义

https://www.mdpi.com/2075-163X/15/6/577

Chai, X.; Liu, R.; Dong, W.; Sun, W.; Lin, S. Surface Physicochemical Property Differences Between Gold-Bearing and Gold-Free Pyrite for Efficient and Clean Processing of Refractory Pyritic Gold Ores. Minerals 2025, 15, 577.

10.

Advancing Flotation Process Modeling: Bayesian vs. Sklearn Approaches for Gold Grade Prediction

推进浮选过程建模：贝叶斯方法与Sklearn方法在金品位预测中的对比

https://www.mdpi.com/2075-163X/15/6/591

Devasahayam, S. Advancing Flotation Process Modeling: Bayesian vs. Sklearn Approaches for Gold Grade Prediction. Minerals 2025, 15, 591.

11.

Prediction of Circulation Load of Side-Flanged High-Pressure Grinding Rolls Closed-Circuit Crushing

侧法兰式高压辊磨机闭路破碎循环负荷的预测

https://www.mdpi.com/2075-163X/15/6/603

Li, N.; Li, L.; Wang, J.; Liu, Z.; Feng, Q.; Zhang, Q.; Liu, H.; Klein, B.; Li, B. Prediction of Circulation Load of Side-Flanged High-Pressure Grinding Rolls Closed-Circuit Crushing. Minerals 2025, 15, 603.

12.

Effects of Grinding Parameters on Galena Particle Size Distribution and Flotation Performance

磨矿参数对方铅矿粒度分布及浮选性能的影响

https://www.mdpi.com/2075-163X/15/6/618

Guo, M.; Yang, Y.; Yu, S.; Wu, Y.; Gu, G.; Wang, Y.; Li, Q.; Chen, J. Effects of Grinding Parameters on Galena Particle Size Distribution and Flotation Performance. Minerals 2025, 15, 618.

13.

Achieving Zero Waste and CO₂ Reduction in Saline Water Treatment—Sustainable Salt and Ice Recovery Using Pipe Freeze Crystallization

咸水处理中实现零排放与二氧化碳减排 —— 基于管式冷冻结晶技术的可持续盐类与冰晶回收

https://www.mdpi.com/2075-163X/15/1/51

More, K.S.; Maree, J.P. Achieving Zero Waste and CO₂ Reduction in Saline Water Treatment—Sustainable Salt and Ice Recovery Using Pipe Freeze Crystallization. Minerals 2025, 15, 51.

14.

Mineralogical Analysis of Factors Affecting the Grade of High-Gradient Magnetic Separation Concentrates and Experimental Study on TiO2 Enrichment Using ARC

影响高梯度磁选精矿品位的因素矿物学分析及利用 ARC富集TiO2的实验研究

https://www.mdpi.com/2075-163X/15/8/799

Liu, Y.; Liu, Z.; Wang, Y.; Zhang, Y.; Lu, D. Mineralogical Analysis of Factors Affecting the Grade of High-Gradient Magnetic Separation Concentrates and Experimental Study on TiO2 Enrichment Using ARC. Minerals 2025, 15, 799.

15.

Hydrometallurgical Leaching of Copper and Cobalt from a Copper–Cobalt Ore by Aqueous Choline Chloride-Based Deep Eutectic Solvent Solutions

通过氯化胆碱基深共晶溶剂溶液从铜钴矿中湿法浸出铜和钴

https://www.mdpi.com/2075-163X/15/8/815

Oke, E.A.; Fedai, Y.; Potgieter, J.H. Hydrometallurgical Leaching of Copper and Cobalt from a Copper–Cobalt Ore by Aqueous Choline Chloride-Based Deep Eutectic Solvent Solutions. Minerals 2025, 15, 815.

Minerals期刊介绍

主编：Prof. Dr. Leonid Dubrovinsky, University Bayreuth, Germany

期刊研究范围涵盖矿物学、矿物地球化学和年代学、经济矿物资源、矿物勘探、创新的采矿技术以及矿物加工等广泛领域。期刊现已被SCIE、Scopus等数据库收录。

2024 Impact Factor: 2.2

2024 CiteScore: 4.4

Time to First Decision: 17.7 days

Acceptance to Publication: 2.6 days