Ingenieurwesen & Materialwissenschaft
Hot working
100%
Microstructure
77%
Creep
45%
Strain rate
43%
Titanium alloys
40%
Grain boundaries
39%
Dynamic recrystallization
36%
Temperature
35%
Electron diffraction
33%
Thermomechanical treatment
32%
Optical microscopy
31%
Superalloys
29%
Coarsening
25%
Plastic deformation
25%
Nucleation
24%
Synchrotrons
24%
Powders
22%
Transmission electron microscopy
22%
Intermetallics
21%
Martensitic stainless steel
21%
Precipitates
21%
Microstructural evolution
21%
Heat treatment
20%
Diffraction
20%
Crystal structure
19%
Recovery
19%
X ray diffraction
19%
Scanning electron microscopy
18%
Mechanical properties
18%
Torsional stress
18%
Chromium steel
18%
Thermal fatigue
17%
Hot pressing
17%
Chemical analysis
16%
Steel
16%
Restoration
15%
Spinodal decomposition
15%
Cooling
14%
Plastic flow
14%
Liquids
14%
Fusion reactions
13%
Synchrotron radiation
12%
Selective laser melting
11%
Compressive stress
10%
Composite materials
10%
Energy dispersive spectroscopy
10%
Lasers
10%
Wire
10%
Titanium
10%
Metallography
10%
Chemie
Microstructure
78%
Alloy
76%
Creep
73%
Strain
68%
Grain Boundary
47%
Electron Backscatter Diffraction
35%
Titanium Alloy
35%
Superalloys
31%
Plastic Deformation
28%
Flow
26%
Nucleation
25%
Thermal Fatigue
24%
Torsion
23%
Grain Refinement
21%
Models (Physical)
21%
Cooling
20%
Partition
19%
Heat Treatment
17%
Optical Microscopy
15%
Simulation
14%
Thermomechanical Fatigue
14%
Crystalline Texture
13%
Diffusion
13%
Spinodal Decomposition
13%
Grain Size
12%
Metallography
12%
Melting
12%
Resistance
11%
Dipole
11%
Liquid
11%
Cavitation
10%
Martensitic Transformation
10%
Creep Behavior
10%
Chemical Transformation
10%
Pore
10%
Synchrotron Radiation
9%
Crystal Structure
8%
Electron Particle
8%
Casting
8%
Composite Material
8%
Strain Hardening
8%
Transmission Electron Microscopy
8%
Energy
7%
Aluminium Alloy
7%
Friction Coefficient
7%
Rietveld Refinement
7%
Thermodynamics
6%
Wear
6%
Purity
6%
X-Ray
6%
Physik & Astronomy
microstructure
61%
steels
49%
titanium alloys
31%
grain boundaries
28%
strain rate
22%
hot working
20%
mechanical properties
20%
torsion
18%
softening
18%
liquid phases
17%
partitions
17%
diffraction
17%
plastic deformation
17%
nucleation
15%
aluminum alloys
14%
recovery
14%
characterization
13%
intermetallics
13%
friction welding
12%
thermomechanical treatment
11%
crystal structure
11%
tensile tests
10%
maraging steels
10%
damage
10%
wire
10%
chemical composition
10%
scanning electron microscopy
10%
transmission electron microscopy
10%
thermal fatigue
10%
temperature
10%
substructures
10%
compression tests
10%
titanium aluminides
9%
cooling
9%
synchrotrons
9%
electrons
9%
phase transformations
9%
precipitates
9%
corrosion resistance
8%
misalignment
8%
melting
8%
dissolving
8%
composite materials
7%
matrices
7%
x rays
7%
martensitic transformation
7%
simulators
7%
thermodynamics
7%
heat resistant alloys
7%
lasers
7%