| Rare Earths and the Balance Problem: How to Deal with Changing Markets? |
20 |
| Recycling of End-of-Life Lithium Ion Batteries, Part I: Commercial Processes |
14 |
| Recovery of Rare-Earth Elements from Neodymium Magnet Waste Using Glycolic, Maleic, and Ascorbic Acids Followed by Solvent Extraction |
8 |
| Iron Recovery from Bauxite Residue Through Reductive Roasting and Wet Magnetic Separation |
7 |
| Green Processes for Electronic Waste Recycling: A Review |
7 |
| Leaching Kinetics of Yttrium and Europium Oxides from Waste Phosphor Powder |
7 |
| Screening of Non-cyanide Leaching Reagents for Gold Recovery from Waste Electric and Electronic Equipment |
6 |
| Evaluation of Fluidization Process for Recovery of Metals from Discarded Printed Circuit Boards |
6 |
| Microwave Reduction of Red Mud for Recovery of Iron Values |
6 |
| Recovery of Cobalt and Lithium Values from Discarded Li-Ion Batteries |
6 |
| Recycling Waste Crystalline Silicon Photovoltaic Modules by Electrostatic Separation |
5 |
| The Rare Earth Elements Potential of Greek Bauxite Active Mines in the Light of a Sustainable REE Demand |
5 |
| Recoveries of Valuable Metals from Spent Nickel Metal Hydride Vehicle Batteries via Sulfation, Selective Roasting, and Water Leaching |
5 |
| Hydrometallurgical Recovery of Rare Earth Elements from Mine Tailings and WEEE |
5 |
| Experimental Investigation and Thermodynamic Modeling of the Distributions of Ag and Au Between Slag, Matte, and Metal in the Cu-Fe-O-S-Si System |
5 |
| The Roles of Mn and Ni Additions to Fe-Contaminated Al in Neutralizing Fe and Stabilizing the Cellular alpha-Al Microstructure |
4 |
| Carbonation Resistance of Alkali-Activated Slag Under Natural and Accelerated Conditions |
4 |
| Leaching of Metals from Incineration Bottom Ash Using Organic Acid |
4 |
| Diversification of the Ironmaking Process Toward the Long-Term Global Goal for Carbon Dioxide Mitigation |
4 |
| Selective Zinc Removal from Electric Arc Furnace (EAF) Dust by Using Microwave Heating |
4 |
| Reduced Carbon Consumption and CO2 Emission at the Blast Furnace by Use of Briquettes Containing Torrefied Sawdust |
4 |
| Large-Scale WEEE Recycling Integrated in an Ore-Based Cu-Extraction System |
4 |
| Towards an Alloy Recycling of Nd-Fe-B Permanent Magnets in a Circular Economy |
4 |
| Effect of Milling Parameters on the Concentration of Copper Content of Hammer-Milled Waste PCBs: A Case Study |
3 |
| Recovery of Gallium from Bauxite Residue Using Combined Oxalic Acid Leaching with Adsorption onto Zeolite HY |
3 |
| Residual Processing in the European Steel Industry: A Technological Overview |
3 |
| An Ex-ante LCA Study of Rare Earth Extraction from NdFeB Magnet Scrap Using Molten Salt Electrolysis |
3 |
| Chemical Treatment of Copper and Aluminum Derived from Waste Crystalline Silicon Solar Cell Modules by Mixed Acids of HNO3 and HCl |
3 |
| Reduction of Light Rare Earths and a Proposed Process for Nd Electrorecovery Based on Ionic Liquids |
3 |
| Separation of Mill Scale from Flume Wastewater Using a Dynamic Separator Toward Zero Wastes in the Steel Hot-Rolling Process |
3 |
| Using Life Cycle Thinking to Assess the Sustainability Benefits of Complex Valorization Pathways for Bauxite Residue |
3 |
| A Study of the Occurrence of Selected Rare-Earth Elements in Neutralized-Leached Bauxite Residue and Comparison with Untreated Bauxite Residue |
3 |
| Recovery of Scandium by Crystallization Techniques |
2 |
| Evaluation of Neodymium and Praseodymium Leaching Efficiency from Post-consumer NdFeB Magnets |
2 |
| Recycling of NdFeB Magnets by Electrodischarge Sintering-Microstructure, Magnetic, and Mechanical Properties |
2 |
| Slag Cleaning Equilibria in Iron Silicate Slag-Copper Systems |
2 |
| Preparation and Characterization of Mill Scale Industrial Waste Reduced by Biomass-Based Carbon |
2 |
| Cold-Briquetted Iron and Carbon (CBIC): Investigation of the Influence of Environmental Condition on Its Chemical and Physical Properties |
2 |
| A Review on Reclamation and Reutilization of Ironmaking and Steelmaking Slags |
2 |
| Valorization of Metallurgical Slag for the Treatment of Water Pollution: An Emerging Technology for Resource Conservation and Re-utilization |
2 |
| An Alternative to the Recycling of Fe-Contaminated Al |
2 |
| Efficient Chloride Salt Extraction of Platinum Group Metals from Spent Catalysts |
2 |
| Effect of Fe2+/T center dot Fe Ratio on the Dissolution Behavior of P from Steelmaking Slag with High P2O5 Content |
2 |
| RecoDust-An Efficient Way of Processing Steel Mill Dusts |
2 |
| Cure Characteristics and Thermal Behavior of Organic-Inorganic Hybrid Composite as Assessed by DSC, TGA, and DMA Techniques |
2 |
| Comparison of Hydro- and Biohydrometallurgical Extraction of Metals from Waste Li-Ion Batteries of Cell Phone |
2 |
| Recovery of Antimony: A Laboratory Study on the Thermal Decomposition and Carbothermal Reduction of Sb(III), Bi(III), Zn(II) Oxides, and Antimony Compounds from Metal Oxide Varistors |
2 |
| Novel Pretreatment Process of Critical Metals Bearing E-Scrap By Using Electric Pulse Disintegration |
1 |
| Metallurgical Effects of Introducing Powdered WEEE to a Molten Slag Bath |
1 |
| Comparative Analysis About Degradation Mechanisms of Printed Circuit Boards (PCBs) in Slow and Fast Pyrolysis: The Influence of Heating Speed |
1 |
