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State Key Laboratory of Advanced Metallurgy, University of Science and Technology Beijing | 論文
- Application of Modified Coke to NO_x Reduction with Recycling Flue Gas during Iron Ore Sintering Process
- Effect of Feeding Modes of Molten Steel on the Mould Metallurgical Behavior for Round Bloom Casting
- Relation between Sticking and Metallic Iron Precipitation on the Surface of Fe_2O_3 Particles Reduced by CO in the Fluidized Bed
- Influence of Temperature on Sticking Behavior of Iron Powder in Fluidized Bed
- Prediction Model of End-point Manganese Content for BOF Steelmaking Process
- Modelling Viscosities of CaO–MgO–Al2O3–SiO2 Molten Slags
- New Separation Method of Boron and Iron from Ludwigite Based on Carbon Bearing Pellet Reduction and Melting Technology
- Interfacial Rate of CO2–CO Reaction with the Solid Iron and Iron Oxide by Isotope Exchange Technique at 1273 K
- Removal of Copper from Molten Steel using FeO–SiO2–CaCl2 Flux
- Selective Chlorination Reaction of Cu2O and FeO Mixture by CaCl2
- Solidification Structure and Compactness Degree of Central Equiaxed Grain Zone in Continuous Casting Billet Using Cellular Automaton-Finite Element Method
- Simulation Study on Performance of Z-path Moving-fluidized Bed for Gaseous Reduction of Iron Ore Fines
- Compactness Degree of Longitudinal Section of Outer Columnar Grain Zone in Continuous Casting Billet Using Cellular Automaton-Finite Element Method
- Influence of Al2O3/SiO2 Ratio on Viscosities of CaO–Al2O3–SiO2 Melt
- Innovative Methodology for Separating of Rare Earth and Iron from Bayan Obo Complex Iron Ore
- Interfacial Rate of CO_2-CO Reaction with the Solid Iron and Iron Oxide by Isotope Exchange Technique at 1273 K
- Innovative Methodology for Separating of Rare Earth and Iron from Bayan Obo Complex Iron Ore
- Prediction Model of End-point Manganese Content for BOF Steelmaking Process
- Selective Chlorination Reaction of Cu_2O and FeO Mixture by CaCl_2
- Compactness Degree of Longitudinal Section of Outer Columnar Grain Zone in Continuous Casting Billet Using Cellular Automaton-Finite Element Method