Engineering & Materials Science
Plasticity
100%
Crystals
99%
Constitutive models
56%
Single crystals
55%
Crystal orientation
49%
Bicrystals
45%
Ultrasonics
40%
Titanium alloys
39%
Aluminum alloys
38%
Hydrogen
37%
Coalescence
35%
Niobium
33%
Finite element method
32%
Austenitic stainless steel
32%
Consolidation
30%
Defects
29%
Metals
28%
Plastic deformation
26%
Friction
25%
Ultrasonic welding
24%
Strain rate
24%
Phase boundaries
23%
Nanocrystalline materials
23%
Fracture energy
23%
Alumina
22%
Plastics
20%
Stress corrosion cracking
18%
Acoustics
18%
Adhesion
18%
Ductility
17%
Fibers
17%
Shear bands
16%
Tomography
16%
Nucleation
16%
High strength alloys
15%
X rays
15%
Aluminum
15%
Electron diffraction
13%
Microstructure
12%
Crack tips
12%
Cermets
12%
Nanostructured materials
12%
Anisotropy
12%
Internal corrosion
12%
Microspheres
11%
Surface defects
10%
Porosity
10%
Stress relaxation
10%
Composite materials
9%
Metal forming
9%
Chemical Compounds
Plastic Deformation
46%
Coalescence
46%
Strain
45%
Titanium Alloy
43%
Crystal Orientation
36%
Plastic Property
35%
Porosity
30%
Strength
30%
Tension
30%
Aluminium Alloy
30%
Simulation
28%
Single Crystalline Solid
26%
Phase Interface
25%
Work of Adhesion
25%
Metal
24%
Fracture Energy
24%
Alloy
23%
Ductility
23%
Shear
23%
Nucleation
18%
Volume
16%
Nanomaterial
16%
Microstructure
15%
Grain Boundary
15%
Pressure
13%
Nanocrystalline Metal
13%
Polycrystalline Solid
13%
Pipeline
13%
Hydrogen
12%
Shape Memory Alloys
12%
Corrosion
12%
Elastic Deformation
12%
Face-Centered Cubic Crystal System
12%
Grain Refinement
11%
Stress Relaxation
11%
Fiber
10%
X-Ray
10%
Magnesium Alloy
10%
Densification
9%
Cubic Crystal
9%
Surface
8%
Purity
8%
Composite Material
8%
Ceramic
8%
Foam
7%
Flow
7%
Microsphere
7%
Energy Consumption
7%
Friction Coefficient
6%
Hexagonal Space Group
6%
Physics & Astronomy
plastic properties
77%
voids
46%
crystals
35%
ultrasonics
34%
stress corrosion cracking
33%
austenitic stainless steels
29%
consolidation
28%
titanium alloys
26%
aluminum alloys
24%
niobium
24%
softening
24%
bicrystals
23%
metals
22%
hydrogen
20%
simulation
20%
adhesion
18%
damage
17%
metal forming
17%
single crystals
15%
high strength alloys
14%
aluminum oxides
14%
friction
14%
ultrasonic welding
13%
finite element method
13%
plastic deformation
12%
coalescing
12%
ductility
12%
intergranular corrosion
12%
multiscale models
11%
mechanical properties
11%
nanocrystals
11%
high strength
11%
acoustics
11%
manufacturing
10%
triaxial stresses
10%
crack propagation
10%
slip
9%
magnesium alloys
9%
stress intensity factors
9%
matrices
9%
shape memory alloys
9%
grain boundaries
8%
machining
8%
martensite
8%
aqueous solutions
7%
strain rate
7%
ceramics
7%
energy
6%
diamonds
6%
geometry
6%