Pureに変更を加えた場合、すぐここに表示されます。

Fingerprint Minoru Nishidaが取り組む研究トピックをご確認ください。これらのトピックラベルは、この人物の研究に基づいています。これらを共に使用することで、固有の認識が可能になります。

Engineering & Materials Science

Shape memory effect
Martensitic transformations
Martensite
Microstructure
Transmission electron microscopy
Crystallography
Precipitates
Heat treatment
Electron microscopy
Twinning
Powders
Mechanical properties
Ductility
Temperature
Phase transitions
Aging of materials
Grain boundaries
Explosive welding
Scanning electron microscopy
Carbon steel
Steel
Annealing
Electron diffraction
Titanium
Diffusion barriers
Magnets
Permeation
Chemical analysis
Thermal cycling
High resolution electron microscopy
Rapid solidification
Coercive force
Carbides
Intermetallics
Composite materials
Hydrogen
Plasmas
Elongation
Defects
Crystalline materials
Melting
Diffusion bonding
Substitution reactions
Tensile strength
Surface chemistry
Order disorder transitions
Heating
Electron microscopes
Stainless steel
Nucleation

Chemical Compounds

Shape memory effect
Martensitic transformations
Microstructure
Transmission electron microscopy
Crystallography
Steel
Powders
Precipitates
Heat treatment
Explosive welding
Twinning
Temperature
Ductility
Grain boundaries
Phase transitions
Aging of materials
Electron microscopy
Mechanical properties
Titanium
Scanning electron microscopy
Carbon steel
Annealing
Diffusion barriers
Electron diffraction
Thermal cycling
High resolution electron microscopy
titanium nickelide
Martensite
Rapid solidification
Hydrogen
Magnets
Stainless Steel
Intermetallics
Permeation
Composite materials
Carbides
Defects
Crystalline materials
Elongation
Diffusion bonding
Chemical analysis
Metals
Melting
Coercive force
Tensile strength
Silver
Order disorder transitions
Heating
Surface chemistry
Plasmas

Physics & Astronomy

Chemistry and Materials

shape memory alloys
ductility
twinning
mechanical properties
titanium
intermetallics
carbides
tantalum nitrides
hydrogen
composite materials
fracture strength

General

martensite
microstructure
transmission electron microscopy
steels
crystallography
precipitates
grain boundaries
electron microscopy
antiphase boundaries
scanning electron microscopy
carbon steels
magnets
ribbons
tensile tests
coercivity
tensile deformation
accommodation
habits
defects
shock
high strength alloys
recovery
thick films
austenitic stainless steels
atmospheres
electron microscopes

Engineering

martensitic transformation
heat treatment
phase transformations
explosive welding
annealing
interlayers
heating
diffusion welding

Physics

temperature
electron diffraction
heat

Mathematical and Computer Sciences

matrices