Surface Tension Evaluation of Molten Silicates Containing Surface-active Components (B_2O_3, CaF_3 or Na_2O)
スポンサーリンク
概要
- 論文の詳細を見る
A thermodynamic model for determining the surface tension of molten ionic mixtures, derived by considering the ionic radii, was applied to molten silicates containing a surface-active component B2O3, CaF2 or Na2O. The calculated results of the present model were in agreement with the experimental data in these ternary systems over a wide temperature range.
- 社団法人 日本鉄鋼協会の論文
- 2007-02-15
著者
-
Holappa Lauri
Laboratory Of Metallurgy Helsinki University Of Technology
-
Holappa Lauri
Helsinki University Of Technology Laboratory Of Metallurgy
-
Hamalainen Marko
Laboratory Of Material Processing And Powder Metallurgy Helsinki University Of Technology
-
Tanaka Toshihiro
Division Of Materials And Manufacturing Science Osaka University
-
NAKAMOTO Masashi
Laboratory of Metallurgy, Helsinki University of Technology
-
Nakamoto Masashi
Division Of Materials And Manufacturing Science Osaka University
-
Tanaka Toshihiro
Division Of Materials And Manufacturing Science Graduate School Of Engineering Osaka University
-
Nakamoto Masashi
Laboratory Of Metallurgy Helsinki University Of Technology
-
Tanaka Toshihiro
Division Of Cardiology Sakakibara Heart Institute
-
TANAKA Toshihiro
Division of Materials and Manufacturing Science, Osaka University
関連論文
- Measuring and Modeling of Viscosity and Surface Properties in High Temperature Systems
- ACR4, a Putative Receptor Kinase Gene of Arabidopsis thaliana, that is Expressed in the Outer Cell Layers of Embryos and Plants, is Involved in Proper Embryogenesis
- INTRACORONARY ULTRASOUND ASSESSMENT OF CORONARY STENTS
- EARLY EXPERIENCE WITH THE STRECKER CORONARY STENT
- Prediction of Phase Separation in Silicate Glass for the Creation of Value-added Materials from Waste Slag
- Evaluation of Viscosity of Mold Flux by Using Neural Network Computation
- Effect of Surface Orientation of Alumina Single Crystals on the Interfacial Tension between Molten Iron and Solid Alumina under Different Oxygen Partial Pressures
- Equilibrium Phase Relationship between SiC and a Liquid Phase in the Fe-Si-C System at 1523-1723K
- Akaike's information criterion for a measure of linkage disequilibrium
- Simple removal of dioxins by injecting combustion gas into water
- REPERFUSION PHENOMENON DURING CORONARY THROMBOLYTIC THERAPY(CT) : Coronary Thrombolysis : 53 Annual Scientific Meeting, Japanese Circulation Society
- Unusual Wetting of Liquid Metals on Iron Substrate with Oxidized Surface in Reduced Atmosphere
- Unusual Wetting of Liquid Bismuth on a Surface-Porous Copper Substrate Fabricated by Oxidation-Reduction Process
- Wettability of Liquid In and Bi on Flat and Porous Solid Iron Substrate
- Application of Hydrothermal Treatment on BF Slag and Waste Glass for Preparing Lubricant Materials in High Strain Rolling for Ultrafine-grained Steel Production
- Fabrication of Low Temperature Foaming Glass Materials Using Hydrothermal Treatment
- The Effect of Si and Mn Content on Dynamic Wetting of Steel with Liquid Zn
- Trial to Evaluate Wettability of Liquid Zn with Steel Sheets Containing Si and Mn
- Effect of Microwave Irradiation on Hydrothermal Treatment of Blast Furnace Slag
- Preparation of Porous Ceramics by the Hydrothermal Reaction of Blast Furnace Slag for Use in a Water-retentive Material
- MgO Effect on Hydrothermal Solidification of Blast Furnace Slag
- Rate Enhancement of the Degassing Reaction by the Enlargement of RH and DH Reactors
- Evaluation of Viscosity of Molten SiO_2-CaO-MgO-Al_2O_3 Slags in Blast Furnace Operation
- Reduction Behavior of FeO Compact Including Molten Slag
- Evaluation of Surface Tension of Molten Slag in Multi-component Systems
- Use of Slag Containing Water as a Lubricant in High Straining Rolling for Ultrafine-grained Steels
- Estimation of Surface Tension of Molten Silicates Using Neural Network Computation
- Evaluation of the Surface Tension of Ternary Silicate Melts Containing Al_2O_3, CaO, FeO, MgO or MnO
- Surface Tension of Liquid Fe-Ti Alloys at 1 823K
- A Model for Estimation of Viscosity of Molten Silicate Slag
- Improvements in Surface Tension Measurements of Liquid Metals Having Low Capillary Constants by the Constrained Drop Method
- Trial on the Application of Capillary Phenomenon of Solid CaO to Desulfurization of Liquid Fe
- Effect of Structure on the Viscosity of Silicate Melts
- Evaluation of Surface Tension of Molten Ionic Mixtures
- Distribution and Coordination State of Titanium Oxides in Microstructures Formed by Spinodal Decomposition in Multicomponent Borosilicate Glass
- Fluid Flow and Free Surface Phenomena in Rotary Electromagnetic Stirring of a Metallic Melt
- A Model for Estimating the Viscosity of Molten Aluminosilicate Containing Calcium Fluoride
- A Model for Estimating Viscosities of Aluminosilicate Melts Containing Alkali Oxides
- Surface Tension Evaluation of Molten Silicates Containing Surface-active Components (B_2O_3, CaF_3 or Na_2O)
- Materials Design for the Fabrication of Porous Glass using Phase Separation in Multi-component Borosilicate Glass
- Composition Dependence of Microstructures formed by Phase Separation in Multi-component Silicate Glass
- Sulphide Capacity Prediction of Molten Slags by Using a Neural Network Approach
- CLINICAL AND ELECTROPHYSIOLOGIC CHARACTERISTICS OF LIFE-THRETENING VENTRICULAR TACHYARRHYTHMIAS OCCURRING DURING TREADMILL EXERCISE TESTING : Exercise Test, Rehabilitation : 53 Annual Scientific Meeting, Japanese Circulation Society
- Characteristics of Iron Entrainment into Slag Due to Rising Gas Bubbles
- Mechanisms of Iron Entrainment into Slag due to Rising Gas Bubbles
- Coupled Simulation of Heat Transfer and Phase Transformation in Continuous Casting of Steel
- Determination of Activities in Slags Containing Chromium Oxides.
- Effects of Porous Surface Layer on Lubrication Evaluated by Ring Compression Friction Test
- Light Absorption by Metals with Porous Surface Layer Formed by Oxidization-Reduction Treatment
- Distribution and Coordination State of Titanium Oxides in Microstructures Formed by Spinodal Decomposition in Multicomponent Borosilicate Glass