Engineering & Materials Science
Fatigue of materials
100%
Nanoindentation
66%
Nanocrystals
45%
Aluminum
37%
Residual stresses
36%
Surface treatment
32%
Synchrotrons
31%
Indentation
31%
Aluminum alloys
30%
Ultrasonics
30%
Austenitic stainless steel
28%
Crack initiation
28%
Strain rate
27%
Welds
24%
Steel
23%
Hardening
21%
Titanium alloys
21%
Energy absorption
20%
Crystal orientation
18%
X ray diffraction
15%
Plastic deformation
15%
Glass fibers
15%
Crack propagation
14%
Electron beam welding
14%
Strain energy
13%
Strain hardening
13%
Manganese steel
12%
ASTM standards
12%
Mechanical testing
12%
Hardness
12%
Composite materials
11%
Compressive stress
11%
Single crystals
11%
X rays
11%
Crushing
11%
Steel construction
11%
Metals
10%
Anisotropy
10%
Cracks
10%
Mechanical properties
10%
Fatigue testing
10%
Nanoparticles
10%
Plastics
10%
Aluminum oxide
10%
Carbon steel
9%
Nickel
9%
Laminates
9%
Compressive strength
9%
Characterization (materials science)
8%
Compressors
8%
Chemical Compounds
Fatigue of materials
78%
Nanoindentation
66%
Nanocrystals
45%
Aluminum
44%
Residual stresses
36%
Steel
36%
Surface treatment
32%
Synchrotrons
31%
Indentation
31%
Aluminum alloys
30%
Austenitic stainless steel
28%
Ultrasonics
27%
Crack initiation
23%
Hardening
21%
Titanium alloys
21%
Energy absorption
20%
Strain rate
17%
Welds
16%
X ray diffraction
15%
Electron beam welding
14%
Crack propagation
13%
Strain hardening
13%
Manganese steel
12%
Mechanical testing
12%
Metals
12%
Hardness
12%
Plastic deformation
12%
Composite materials
11%
Compressive stress
11%
X rays
11%
Crushing
11%
Mechanical properties
10%
Nanoparticles
10%
Aluminum oxide
10%
Cracks
9%
Carbon steel
9%
Laminates
9%
Characterization (materials science)
8%
Compressors
8%
Plastics
8%
Aging of materials
8%
Boundary conditions
7%
Direction compound
7%
Yield stress
6%
fiberglass
6%
Concretes
6%
Correlation methods
6%
Tensile testing
5%
Aerospace industry
5%
Bending tests
5%
Physics & Astronomy
nanoindentation
34%
aluminum alloys
30%
fatigue life
27%
welded joints
24%
hardening
19%
residual stress
18%
aluminum
18%
strain rate
17%
cycles
15%
steels
15%
electron beam welding
14%
crushing
13%
precipitation hardening
12%
plastics
11%
synchrotrons
11%
titanium alloys
10%
manganese
10%
stress distribution
9%
indentation
9%
energy absorption
9%
mechanical properties
8%
curves
8%
honeycomb cores
8%
hardness
8%
atomic force microscopy
7%
porosity
7%
nanoparticles
7%
carbon
6%
composite materials
6%
x rays
6%
characterization
5%
matrices
5%
profiles
5%
predictions
5%
