メインナビゲーションにスキップ
検索にスキップ
メインコンテンツにスキップ
東北大学 ホーム
ヘルプ&FAQ
English
日本語
ホーム
プロファイル
研究部門
研究成果
プレス/メディア
専門知識、名前、または所属機関で検索
金属材料研究所・融合研究部
附置研究所
金属材料研究所
概要
フィンガープリント
ネットワーク
プロファイル
(7)
研究成果
(591)
プレス/メディア
(1)
フィンガープリント
金属材料研究所・融合研究部が活動している研究トピックを掘り下げます。これらのトピックラベルは、この組織のメンバーの研究成果に基づきます。これらがまとまってユニークなフィンガープリントを構成します。
並べ替え順
重み付け
アルファベット順
Material Science
Thermoelectrics
100%
Film
85%
Corrosion
81%
Surface (Surface Science)
81%
Hydride
69%
Density
56%
Hydrogen Embrittlement
47%
Magnesium
42%
Corrosion Resistance
42%
Thin Films
38%
Stainless Steel
34%
High Strength Steels
30%
Magnesium Alloy
26%
Desorption
23%
Yttrium
22%
Hydrogenation
22%
Garnet
21%
X-Ray Diffraction
20%
Amorphous Alloys
20%
Pitting Corrosion
19%
Crystal Structure
18%
Oxide Film
18%
Titanium
17%
Austenitic Stainless Steel
17%
Sulfide Stress Cracking
17%
Phosphate Coating
17%
Electrical Conductivity
16%
Conductor
15%
Fracture Toughness
15%
Austenite
15%
Strain Rate
14%
High-Strength Low-Alloy Steel
14%
Metal Hydride
14%
Intermetallics
14%
Magnetic Material
13%
Anisotropy
13%
Heat Treatment
13%
Grain Boundary
12%
Electronic Circuit
12%
Solid Solutions
12%
Ultimate Tensile Strength
12%
Composite Material
12%
Thermal Conductivity
12%
Oxide Compound
11%
Martensite
11%
Diamond-Like Carbon
11%
X-Ray Photoelectron Spectroscopy
11%
Ferromagnetic Material
11%
Fibroblast
11%
Body Fluid
11%
Alloying
10%
Magnesium Alloys
10%
Ferroelectric Material
10%
Scanning Electron Microscopy
10%
Weld Metal
10%
Lithium
10%
Solid Electrolyte
10%
Biocompatibility
10%
Crystal Defect
10%
Diffraction Measurement
9%
Metallic Biomaterial
9%
Heterojunction
9%
Electrical Resistivity
8%
Phosphate Buffered Saline
8%
Solution (Chemistry)
8%
Nanoparticle
8%
Embrittlement
8%
Ion Bombardment
8%
Sodium
8%
Zirconium
8%
Binary Alloy
7%
Deuterides
7%
Superlattice
7%
Magnetic Property
7%
Aluminum
7%
Vanadium
7%
Deuterium
7%
Carbide
7%
Fatigue of Materials
6%
Chromium
6%
Transition Metal
6%
Platinum
6%
Superconducting Material
6%
Duplex Stainless Steel
6%
Neutron Diffraction
6%
Lithium Ion
6%
Yield Stress
6%
Borate
6%
Martensitic Stainless Steel
6%
Atmospheric Corrosion
6%
Intergranular Fracture
6%
Ti-6Al-4V
6%
Transmission Electron Microscopy
5%
Hydrogen Storage Material
5%
Nanoindentation
5%
Diffusivity
5%
Thermoelectric Materials
5%
Stress Corrosion Cracking
5%
Titanium Alloy
5%
Oxide Surface
5%
Engineering
Seebeck Effect
68%
Iron
34%
Thermoelectricity
32%
Peltier Effect
31%
High Strength Steels
31%
Hydrogen Absorption
29%
Corrosion Behavior
28%
Hydroxyapatite Coating
23%
Thin Films
21%
Hydrogen Embrittlement
19%
Stainless Steel
19%
Sulfide Stress Cracking
17%
Corrosion Resistance
17%
Room Temperature
16%
Thermal Gradient
16%
Temperature Gradients
13%
Anisotropic
13%
Ferromagnet
11%
Magnetic Field
11%
High-Strength Low-Alloy Steel
11%
Fatigue Property
11%
Low-Temperature
10%
Experimental Result
10%
Corrosion Rate
10%
Electrical Conductivity
10%
Electromotive Force
10%
Metallic Biomaterials
9%
Phosphate Coating
9%
Electric Field
9%
Strain Rate
8%
Oxide Film
8%
Temperature Change
8%
Stress-Cracking Resistance
8%
Temperature Dependence
8%
Partial Pressure
8%
Hydrogen Storage
8%
Corrosion Product
8%
Magnetoelectronics
7%
Heat Treatment
7%
Sour Service
7%
Testing Temperature
7%
Steel Surface
7%
Welds
7%
Face-Centered Cubic
7%
Hydrogenation
7%
Biological Environment
7%
Thermal Conductivity
7%
Pure Magnesium
7%
Cracking Susceptibility
7%
Hydrogen-Induced Cracking
7%
Ray Diffraction
7%
Surface Oxide
6%
Solid Solutions
6%
Austenite
6%
Line Pipe
6%
Atmospheric Corrosion
6%
Thermopile
6%
Test Result
5%
Open Circuit Potential
5%
Tensile Test
5%
Austenitic Stainless Steel
5%
Pt System
5%
Pitting Corrosion Resistance
5%
Fracture Surface
5%
Test Solution
5%
Dislocation Density
5%
Biomolecule
5%
Ultimate Tensile Strength
5%
Carbon Steel
5%
Physics
Seebeck Effect
76%
Thermoelectricity
65%
Photoelectric Emission
53%
Peltier Effect
35%
Thin Films
32%
Nernst-Ettingshausen Effect
30%
Magnetic Field
28%
Room Temperature
24%
Magnon
22%
Ettingshausen Effect
20%
Temperature Gradients
20%
Yttrium-Iron Garnet
19%
Spintronics
18%
Temperature Dependence
11%
Magnetic Material
11%
Ferromagnetic Material
9%
First Principle
9%
Hydrogen Storage
9%
Ferroelectric Material
9%
X Ray Diffraction
7%
Iron
7%
Phonon
7%
Magnetoresistance
7%
Permanent Magnet
6%
Ferromagnetic Resonance
6%
Superlattice
5%
Magnetic Property
5%
Spin Diffusion
5%
Conduction Electron
5%