Engineering & Materials Science
Hydrogen
100%
Copper
50%
Vacancies
39%
Thermal desorption spectroscopy
38%
Nodular iron
34%
Spent fuels
23%
Hydrogen embrittlement
23%
Ferritic stainless steel
22%
High strength steel
20%
Stress corrosion cracking
20%
Steel
18%
Temperature
16%
Internal friction
15%
Microstructure
14%
Electrochemical oxidation
14%
Aging of materials
13%
Martensitic stainless steel
12%
Water
12%
Corrosion
12%
Sulfides
11%
Oxides
11%
Strain rate
11%
Austenite
11%
Mechanical properties
11%
Selective laser melting
10%
Duplex stainless steel
10%
Radioactive wastes
10%
Grain refinement
10%
Austenitic stainless steel
10%
Friction stir welding
10%
Waste disposal
10%
Air
9%
Steel structures
9%
Elongation
9%
Crack propagation
9%
Welds
9%
Dissolution
9%
Pendulums
9%
Pressure vessels
9%
Fatigue crack propagation
8%
Corrosion resistance
8%
Torsional stress
8%
Metals
8%
Anodic polarization
8%
Heat treatment
8%
Powders
8%
Thermomechanical treatment
7%
Cooling
7%
Relaxation
6%
Fusion reactions
6%
Physics & Astronomy
hydrogen
77%
copper
43%
internal friction
31%
cans
30%
steels
30%
spent fuels
28%
nuclear fuels
25%
disposal
24%
desorption
22%
high strength steels
21%
superplastic forming
17%
voids
16%
austenite
16%
plastic deformation
16%
stainless steels
15%
radioactive wastes
14%
friction stir welding
13%
metals
13%
waste disposal
12%
microstructure
12%
ferritic stainless steels
12%
hydrogen embrittlement
12%
mechanical properties
11%
pearlite
11%
austenitic stainless steels
11%
ferrites
10%
corrosion
10%
pressure vessels
10%
precipitation hardening
10%
trapping
10%
corrosion resistance
10%
embrittlement
10%
pendulums
9%
liquid-solid interfaces
9%
interactions
9%
spectroscopy
8%
magnetic permeability
8%
heat treatment
8%
oxygen
8%
torsion
8%
elongation
8%
slip
8%
water
7%
phase transformations
7%
thermomechanical treatment
7%
edge dislocations
7%
ductility
7%
melting
6%
reactors
6%
tensile tests
6%
Chemical Compounds
Hydrogen
65%
Thermal Desorption Spectroscopy
30%
Spent Fuel Radioactive Waste
27%
Strain
26%
Embrittlement
25%
Alloy
19%
Corrosion
16%
Microstructure
15%
Cold Rolling
13%
Stress Corrosion Cracking
12%
Pressure Vessel
12%
Grain Refinement
12%
Crack Propagation
12%
Oxide
12%
Yield Point
10%
Cooling
10%
Ductility
10%
Grain Size
10%
Body-Centered Cubic Crystal System
10%
Liquid-Solid Interface
10%
Corrosion Resistance
9%
Shear Strain
9%
Torsion
8%
Metal
8%
Sulfide
8%
Anodic Polarization
8%
Heat Treatment
8%
Creep Rate
7%
Melting
7%
Surface
6%
Desorption
6%
Annealing
6%
Environment
6%
Fracture Surface Morphology
6%
Purity
6%
Positron Annihilation Spectroscopy
6%
Ambient Reaction Temperature
5%
Foil
5%
Strength
5%
Molecular Cluster
5%
Tensile Strength
5%
Plastic Deformation
5%
Grain Boundary
5%
