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Department Of Materials Science And Engineering The Graduate School Of Science And Engineering Tokyo | 論文
- Refined Solidification Structure and Improved Formability of A356 Aluminum Alloy Plate Produced using a High-Speed Twin-Roll Strip Caster
- Unique Fine Microstructures of Iron Caused by Intense Shearing under Shock Compression
- Second Order Electrical Resistivity Decay Quenched Aluminum
- Tear Toughness Evaluation of a Permanent Mold Cast A356 Aluminum Alloy Using a Small-size Specimen
- Tear Toughness of Permanent Mold Cast and DC Cast A356 Aluminum Alloys
- Resolution of Cu Atoms in a GP[1] Zone in Al-Cu by FIM and Determination of the GP[1] Structure
- Origin of Improved Ductility in Semi-Liquid Die-Cast Al-7%Si-0.4%Mg Alloys
- Effects of Dendrite Cell Size and Eutectic Si Particle Morphology on Fatigue Crack Growth in Cast and HIPed AC4CH Alloys
- Interaction Energy between a Self-Interstitial and a (1/2) Screw Dislocation in BCC Transition Metals
- Calculation of Core Structure and Core Energy of a (1/2) Screw Dislocation in BCC Transition Metals: Inclusion of d-Orbital Anisotropy
- Effects of Extrusion Temperature on Creep Properties of Spray-Formed and Hot-Extruded Al-8.3 mass%Fe Alloys
- 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
- Effect of Magnetostriction on the Orientation of 90° Magnetic Domain Wall in Iron
- Competitive Nucleation and Growth of {111} Ω with {001} GP Zones and θ' in a Stress-Aged Al-Cu-Mg-Ag Alloy
- Effects of Mechanical constraint on the Strength of Ni_3Ge Single Crystals
- A New Method of Deriving Fundamental Rate Equations for Ostwald Ripening.
- Crack arrest by strong short fibers in a brittle composite.
- Martensitic Transformation and Shear Deformation Examined by In-situ Experiments in a HVEM.
- Magnetic Anisotropy Caused by the Formation of Stress-induced Martensite in Small Iron Particles in a Copper Matrix.