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Shibaura Institute of Technology ホーム
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地域環境システム専攻
大学院理工学研究科
博士課程
概要
フィンガープリント
ネットワーク
プロファイル
(109)
研究成果
(4138)
活動
(12)
プレス/メディア
(1)
受賞
(4)
フィンガープリント
地域環境システム専攻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
Engineering & Materials Science
Actuators
9%
Addition reactions
9%
Air
17%
Air conditioning
10%
Alumina
8%
Aluminum oxide
9%
Annealing
12%
Bolts
7%
Boron
10%
Carbon
17%
Catalysts
14%
Chemical analysis
13%
Chemical vapor deposition
10%
Coatings
13%
Composite materials
9%
Concretes
9%
Copolymers
8%
Cracks
7%
Crystal structure
9%
Crystalline materials
7%
Crystals
16%
Defects
7%
Desorption
8%
Diamonds
8%
Doping (additives)
12%
Elastomers
8%
Electric potential
12%
Electrodes
15%
Experiments
13%
Fabrication
19%
Fatigue of materials
15%
Finite element method
8%
Flux pinning
36%
Fused silica
8%
Gas turbines
7%
Gases
12%
Gels
32%
Glass
7%
Grain boundaries
10%
Heating
8%
High temperature superconductors
9%
Hot Temperature
21%
Hybrid systems
7%
Hydrides
13%
Hydrogen
30%
Hydrogen storage
8%
Hydrogenation
10%
Infiltration
18%
Ions
23%
Irradiation
10%
Lasers
9%
Liquids
18%
Luminescence
7%
Magnesium
7%
Magnetic fields
19%
Magnetization
18%
Magnets
10%
Mechanical alloying
37%
Mechanical properties
9%
Membranes
22%
Metals
19%
Microstructure
26%
Nanoparticles
12%
Nitriding
10%
Oxidation
8%
Oxides
20%
Oxygen
23%
Permeation
9%
Perovskite
7%
Photoluminescence
12%
Plasmas
17%
Polymers
24%
Powders
33%
Power generation
7%
Proton beams
36%
Quasicrystals
17%
Recovery
8%
Reforming reactions
8%
Scanning
9%
Scanning electron microscopy
8%
Selenium
7%
Silica
26%
Silver
8%
Single crystals
7%
Sintering
12%
Soil cement
10%
Soldering alloys
11%
Solid oxide fuel cells (SOFC)
21%
Solid solutions
8%
Solid state reactions
7%
Steam reforming
7%
Substrates
14%
Superconducting materials
100%
Superconducting transition temperature
8%
Temperature
51%
Thin films
18%
Titanium
9%
Transmission electron microscopy
7%
Water
11%
X ray diffraction
8%
Chemical Compounds
Addition Reaction
5%
Air Conditioning
9%
Alloy
19%
Ambient Reaction Temperature
6%
Amorphous Material
10%
Amount
9%
Annealing
9%
Application
13%
Behavior as Electrode
6%
Boron Atom
7%
Carbon Atom
5%
Catalyst
6%
Coating Agent
6%
Composite Material
7%
Contact Resistance
5%
Cooling
6%
Crack Propagation
11%
Creep
7%
Crystal Structure
5%
Crystalline Texture
5%
Current Density
26%
Dielectric Material
5%
Diffusion
6%
Dioxygen
13%
Electron Backscatter Diffraction
7%
Energy
9%
Environment
9%
Flow
11%
Force
17%
Gas
10%
Gel
15%
Grain Boundary
10%
Heat
9%
Heat Pipe
6%
Heat Transfer
6%
Hydride
6%
Hydrogen
12%
Hydrogenation
5%
Ion
7%
Lanthanoid Atom
7%
Levitation
15%
Liquid
14%
Liquid Film
16%
Magnesium Atom
6%
Magnetic Field
24%
Magnetic Flux
5%
Magnetization
14%
Mechanical Alloying
30%
Metal
9%
Microstructure
26%
Mixture
7%
Nanoparticle
6%
Nitride
5%
Nitrogen
6%
Oxide
12%
Plasma
9%
Plate Like Crystal
5%
Porosity
6%
Porous Polymer
6%
Pressure
8%
Proton
7%
Purity
10%
Quasicrystallinity
14%
Reduction
9%
Simulation
12%
Single Crystalline Solid
5%
Sintering
13%
Size Reduction
5%
Solder
10%
Solid Solution
6%
Solid State Reaction
5%
Strain
11%
Strength
7%
Superconductive Transition Temperature
5%
Superconductor
90%
Surface
17%
Thermal Conductivity
5%
Thermal Fatigue
6%
Thermoelectricity
11%
Time
11%
Velocity
8%
Volume
6%
Wear
5%
Physics & Astronomy
actuators
5%
air
7%
alloying
10%
annealing
6%
atmospheres
5%
balls
7%
boron
7%
carbon
7%
catalysts
7%
characterization
7%
composite materials
5%
crack propagation
5%
critical current
29%
current density
22%
cycles
7%
defects
5%
diffraction
6%
elastomers
5%
energy
5%
evaluation
8%
fabrication
9%
fatigue life
9%
flux pinning
23%
gases
5%
gels
11%
high temperature superconductors
5%
hydrogen
14%
infiltration
19%
ions
7%
levitation
14%
liquid oxygen
6%
liquid phases
5%
liquids
5%
lubricants
5%
magnetic fields
8%
magnetization
12%
magnets
7%
mechanical properties
5%
membranes
5%
metals
5%
methane
6%
microbeams
7%
microstructure
19%
nanoparticles
7%
optimization
6%
oxides
8%
oxygen
10%
performance
17%
permanent magnets
5%
polymers
7%
preparation
5%
proton beams
13%
scanning electron microscopy
5%
seeds
6%
silica glass
6%
silicon dioxide
7%
silver
5%
sintering
10%
solders
8%
solid oxide fuel cells
9%
solid state
8%
steam
7%
synthesis
14%
temperature
16%
thin films
7%
trapped magnetic fields
6%
trapping
6%
YBCO superconductors
6%