In situ Transmission Electron Microscopy of Carbide Precipitation in Fe-50% Cr Alloys at Elevated Temperatures
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概要
- 論文の詳細を見る
- Japan Institute of Metalsの論文
- 2000-01-20
著者
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ABIKO Kenji
Institute for Materials Research, Tohoku University
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Mayuzumi M
Central Res. Inst. Electric Power Ind.
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Abiko Kenji
Institute For Materials Research Tohoku University
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OHTA Joji
Central Research Institute of Electric Power Industry
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OHTA Joji
Surface Science Department, Komae Research Laboratory, Central Research Institute of Electric Power
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KAKO Kenji
Surface Science Department, Komae Research Laboratory, Central Research Institute of Electric Power
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MAYUZUMI Masami
Surface Science Department, Komae Research Laboratory, Central Research Institute of Electric Power
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KUSANAGI Hideo
Surface Science Department, Komae Research Laboratory, Central Research Institute of Electric Power
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Kusanagi Hideo
Surface Science Department Komae Research Laboratory Central Research Institute Of Electric Power In
関連論文
- Chemical Form of Precipitate by Coprecipitation with Palladium for Separation of Trace Elements in High-Purity Metals
- Determination of Trace Element Quantities in Ultra High-Purity Iron by Spectrochemical Analysis after Chemical Separation
- Determination of Trace Amounts of Sulfur in High-Purity Iron by Infrared Absorption after Combustion: Removal of Sulfur Blank
- Formation of Mono-Layer Honeycomb Structure in High-Purity Iron by Single Pass Hot-rolling
- Formation of Giant Columnar Grains in High-Purity Iron by Hot-Rolling
- Microstructural Evolution of Fe-Cr-W Model Alloys During Fe^+ Ion Irradiation
- Neutron Activation Analysis of Ultrahigh-Purity Ti-Al Alloys in Comparison with Glow-Discharge Mass Spectrometry
- Neutron Activation Analysis of High-Purity Iron in Comparison with Chemical Analysis
- Formation of Ultra High Pure Metal Thin Films by Means of a Dry Process
- PREFACE
- Effects of Various Alloying Elements on Tensile Properties of High-Purity Fe-18Cr-(14-16)Ni Alloys at Room Temperature
- In situ Transmission Electron Microscopy of Carbide Precipitation in Fe-50% Cr Alloys at Elevated Temperatures
- Experimental Studies on Safety of Dry Cask Storage Technology of Spent Fuel Allowable Temperature of Cladding and Integrity of Cask under Accidents
- Diffusion of Cr and Fe in a High-Purity Fe-50mass%Cr-8mass%W Alloy
- Self-Diffusion in High Purity Fe-50 mass% Cr Alloy
- PREFACE
- Effects of Neutron Irradiation on Tensile Properties in High-Purity Fe-(9-50) Cr and Fe-50Cr-xW Alloys
- Spectrophotometric Determination of Trace Amounts of Boron in High-Purity Iron and Ferroalloy after Chemical Separation
- Determination of Trace Amounts of Carbon in High-Purity Iron by Infrared Absorption after Combustion: Pretreatment of Reaction Accelerator and Ceramic Crucible
- Damage Structures and Mechanical Properties of High-Purity Fe-9Cr Alloys Irradiated by Neutrons
- Ultra-Purification of Electrolytic Iron by Cold-Crucible Induction Melting and Induction-Heating Floating-Zone Melting in Ultra-High Vacuum
- Mechanical Properties of Ultrahigh-Purity Ti-45mol%Al Alloy
- Effect of Tungsten on Mechanical Properties of High-Purity 60mass%Cr-Fe Alloys
- Influence of Purity and Cooling-Rate on the Microstructure of Hot-Forged Pure Irons
- Mechanical Properties of a High-Purity 60 Mass% Cr-Fe Alloy
- High-Temperature Mechanical Properties of a High-Purity Cr-Ni Alloy
- Influence of Purity and Forging Temperature on the Microstructure of High-Purity Iron
- Effect of Aging on the Tensile Properties of High-Purity Fe-50Cr Alloys
- Effect of Grain Size on the Deformation Properties of a High-Purity Fe-50Cr Alloy at 293 and 773K
- Role of Tungsten in the Mechanical Properties of a High-Purity Fe-50mass% Cr Alloy at 293-773K
- Purification of Ti-Al Alloys by Induction-Heating Floating-Zone melting and Cold-Crucible melting in Ultra-High Vacuum
- Determination of Trace Amount of Gaseous Elements in Iron and Steel
- In-situ Observation of Transformation Behavior in High-Purity Fe-Ni Alloys
- Purification of Cobalt, Nickel, and Titanium by Cold-Crucible Induction Melting in Ultrahigh Vacuum
- Role of Carbon and Nitrogen on the Transformation of the σ Phase in Highly Purified Fe-50 mass% Cr Alloys
- Why Do We Study Ultra-High Purity Base Metals?