期 |
栏目 |
标题 |
文件 |
卷 46, 编号 1 (2016) |
Article |
The development of new metallurgical materials and technologies. Part 1 |
|
卷 46, 编号 5 (2016) |
Article |
The development of new metallurgical materials and technologies. Part 2. Powder nanomaterials |
|
卷 46, 编号 7 (2016) |
Article |
Thermodynamics of oxygen solutions in nickel melts containing aluminum and titanium |
|
卷 46, 编号 9 (2016) |
Article |
Formation of metallic phase by passing gaseous reducing agent through multicomponent oxide melt. Part 1. Theoretical principles |
|
卷 46, 编号 10 (2016) |
Article |
Improving blast-furnace efficiency by regulating the properties of iron-ore pellets |
|
卷 46, 编号 11 (2016) |
Article |
Calculations of manganese ferroalloys production efficiency from different ores |
|
卷 47, 编号 1 (2017) |
Article |
Formation of metallic phase on reducing-gas injection in multicomponent oxide melt. Part 2. Density and surface properties |
|
卷 47, 编号 3 (2017) |
Article |
Solubility of oxygen in Fe–Co melts containing titanium |
|
卷 47, 编号 5 (2017) |
Article |
Physicochemical characteristics, production and application of boron-bearing complex ferroalloys |
|
卷 47, 编号 8 (2017) |
Article |
Improved manganese extraction in the production of manganese ferroalloys |
|
卷 47, 编号 9 (2017) |
Article |
Equilibrium boron distribution between Fe–C–Si–Al melt and boron-bearing slag |
|
卷 47, 编号 12 (2017) |
Article |
Formation of Metallic Phase on Reducing-Gas Injection in Multicomponent Oxide Melt. Part 3. Separation of Ferronickel and Oxide Melt |
|
卷 48, 编号 1 (2018) |
Article |
Oxygen Solubility in Fe–Co Melts Containing Carbon |
|
卷 48, 编号 3 (2018) |
Article |
Thermodynamics of Oxygen Solution in Fe–Ni Melts Containing Boron |
|
卷 48, 编号 5 (2018) |
Article |
SHS Technology for Composite Ferroalloys. 1. Metallurgical SHS: Nitrides of Ferrovanadium and Ferrochromium |
|
卷 48, 编号 7 (2018) |
Article |
SHS Technology for Composite Ferroalloys. 2. Synthesis of Ferrosilicon Nitride and Ferrotitanium Boride |
|
卷 49, 编号 1 (2019) |
Article |
Utilization of Manganese in Russian Metallurgy |
|
卷 49, 编号 9 (2019) |
Article |
Molecular–Dynamic Simulation of the Melt of an Industrial Oxide–Fluoride Mold Flux |
|