Thermodynamic Study on the Ag-Pb-O System at 1273K
スポンサーリンク
概要
著者
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Ueda Shigeru
Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
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Ueda Shigeru
Institute Of Multidisciplinary Research For Advanced Materials Tohoku University
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KUMAGAI Tomomasa
Faculty of Engineering, Iwate University
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Kumagai Tomomasa
Faculty Of Engineering Iwate University
関連論文
- Enhancement of Reactivity of Carbon Iron Ore Composite Using Redox Reaction of Iron Oxide Powder
- Influences of Physical Properties of Particle in Discrete Element Method on Descending Phenomena and Stress Distribution in Blast Furnace
- Transient Behavior of Burden Descending and Influence of Cohesive Zone Shape on Solid Flow and Stress Distribution in Blast Furnace by Discrete Element Method
- Simultaneous Three-dimensional Analysis of Gas–Solid Flow in Blast Furnace by Combining Discrete Element Method and Computational Fluid Dynamics
- Dynamic Analysis of Gas and Solid Flows in Blast Furnace with Shaft Gas Injection by Hybrid Model of DEM-CFD
- Distributions of Sn, Sb, and Bi between Ag-Pb Alloy and PbO Based Melt at 1273K
- Characteristics of Solid Flow and Stress Distribution Including Asymmetric Phenomena in Blast Furnace Analyzed by Discrete Element Method
- Optimization of Physical Parameters of Discrete Element Method for Blast Furnace and Its Application to the Analysis on Solid Motion around Raceway
- Improvement of Reactivity of Carbon Iron Ore Composite with Biomass Char for Blast Furnace
- Reaction Model and Reduction Behavior of Carbon Iron Ore Composite in Blast Furnace
- Infrared Emission Spectra of CaF_2-CaO-SiO_2 Melt
- Phasediagram study on the Al_2O_3-CaO-TiO_2 system
- Production of Mn-Fe Alloy from Slag Generated in Mn-removal Treatment of Molten Cast Iron
- Transient Behavior of Burden Descending and Influence of Cohesive Zone Shape on Solid Flow and Stress Distribution in Blast Furnace by Discrete Element Method
- Recent Progress and Future Perspective on Mathematical Modeling of Blast Furnace
- Enhancement of Reactivity of Carbon Iron Ore Composite Using Redox Reaction of Iron Oxide Powder
- Influence of Blast Furnace Inner Volume on Solid Flow and Stress Distribution by Three Dimensional Discrete Element Method
- Dynamic Analysis of Gas and Solid Flows in Blast Furnace with Shaft Gas Injection by Hybrid Model of DEM-CFD
- Thermodynamic Consideration on the Absorption Properties of Carbon Dioxide to Basic Oxide
- Activity Coefficient of AgO_ in PbO-NaO_ and PbO-CaO Melts at 1273K
- Thermodynamic Properties of Selenium in Ag-Pb Alloy and Lead Oxide Phases at 1273K
- Activity Coefficient of AgO_ in the PbO-SiO_2 Melt at 1273K
- Thermodynamic Study on the Ag-Pb-O System at 1273K
- Simultaneous Three-dimensional Analysis of Gas-Solid Flow in Blast Furnace by Combining Discrete Element Method and Computational Fluid Dynamics
- CO_2 Absorption and Desorption Abilities of Li_2O-TiO_2 Compounds