A New Method of Deriving Fundamental Rate Equations for Ostwald Ripening.
スポンサーリンク
概要
著者
-
Mori Tsutomu
Department Of Materials Science And Engineering The Graduate School Of Science And Engineering Tokyo
-
Fujii Toshiyuki
Department Of Innovative And Engineered Materials Tokyo Institute Of Technology
-
Kato Masaharu
Department Of Innovative And Engineered Materials Tokyo Institute Of Technology
-
Onaka Susumu
Department of Engineering Science, Faculty of Engineering, Kyoto University
-
Fujii Toshiyuki
Department of Materials Science and Engineering, Tokyo Institute of Technology
関連論文
- Magnetic Field-Induced Martensitic Transformation of Fe-Co Particles in a Cu Matrix
- Unique Fine Microstructures of Iron Caused by Intense Shearing under Shock Compression
- Isotopic Enrichment of Nickel in Aqueous Solution/Crown Ether System
- Cyclic Deformation Behavior of Ultra-Fine Grained Copper Produced by Equal Channel Angular Pressing
- Temperature and Strain Rate Dependence of Flow Stress in Severely Deformed Copper by Accumulative Roll Bonding
- Dislocation Bow-Out Model for Yield Stress of Ultra-Fine Grained Materials
- Effects of Grain-Boundary Sliding and Plastic Deformation of Grains on the Formation of Grain-Boundary Cracks in a Double Cylindrical Bicrystal of a Cu-SiO_2 Alloy
- Morphological Evolution of Grain-Boundary SiO_2 in Internally Oxidized Cu-Si Bicrystals
- Elastic States of Inhomogeneous Spheroidal Inclusions
- Experimental Study on Magnetic Torque Measurement to Estimate Fiber Orientation in Fe-Fiber-Reinforced Composites
- Unusual Isotope Effects of Molybdenum in Chemical Exchange Reaction Using Dicyclohexano-18-Crown-6
- Resolution of Cu Atoms in a GP[1] Zone in Al-Cu by FIM and Determination of the GP[1] Structure
- Analysis of Kinetics of Diffusion Induced Recrystallization in Fe Phase of Cu/Fe/Cu Diffusion Couples
- Experimental Study on Diffusion Induced Recrystallization in Cu/Fe/Cu Diffusion Couples Using Cu Single Crystals
- Microstructural Development during Fatigue of a Polycrystalline 3003 Aluminum Alloy
- Radioautography of C^-Labeled Dimethylbez(α)anthracene Injected Intravenously into Female Rats
- Ultrastructural Studies on Dynamic Changes of Golgi Area and Secretory Granules in Pituitary M T Cells of Hypothalamic Lactating Rats
- OBSERVATIONS ON LACTATION WITH SULPIRIDE IN FEMALE RATS
- Histochemical Observations on Adenohypophysis and Mammary Gland of Hypothalamic-lactating Rats
- Histochemical Studies on Rat Pituitary Prolactin Cells
- Histochemical Observations on Early Changes of Phospholipid-Liver by Coralgil in Rats
- Electron-Microscopic Localization of Alkaline Phosphatase Activity in Hyperfunctional and Neoplastic Epithelium of the Mammary Gland of Female Rats
- Effect of Magnetostriction on the Orientation of 90° Magnetic Domain Wall in Iron
- Migration of the Lag Screw Within the Femoral Head : A Comparison of the Intramedullary Hip Screw and the Gamma Asia-Pacific Nail
- Low-Cycle Fatigue of Ultrafine-Grained Aluminum at Low Temperatures
- Effects of Elastic Modulus, Shape and Volume Fraction of an Elastically Inhomogeneous Second Phase on Stress States in a Loaded Composite
- Preface to the Special Issue on "Fatigue, Cyclic Deformation and Microstructure"
- Low Cycle Fatigue of Cu-Fe Alloy Single Crystals Containing Transformable Fe Precipitates
- Retardation of Softening of Ultrafine-Grained Copper during Low Temperature Annealing under Uniaxial Tensile Stress
- Morphological and Crystallographic Characteristics of Incoherent Octahedral FCC Co Precipitates in a Cu Matrix
- Appropriateness of the Hencky Equivalent Strain as the Quantity to Represent the Degree of Severe Plastic Deformation
- Experimental Study on Magnetic Torque Measurement to Estimate Fiber Orientation in Fe-Fiber-Reinforced Composites
- A New Method of Deriving Fundamental Rate Equations for Ostwald Ripening.
- Crack arrest by strong short fibers in a brittle composite.
- Stability of Fatigued Dislocation Wall Structure in Coarse-Grained and Ultrafine-Grained Aluminum against Monotonic Tensile Deformation
- Magnetic Anisotropy Caused by the Formation of Stress-induced Martensite in Small Iron Particles in a Copper Matrix.