Engineering & Materials Science
Metal foil
100%
Lasers
96%
Printing
86%
3D printers
70%
Austenitic stainless steel
49%
Mechanical properties
41%
Femtosecond lasers
40%
Stents
30%
Powders
28%
Crystal microstructure
27%
Ablation
25%
Micromachining
24%
Selective laser melting
21%
Fusion reactions
21%
Microstructure
19%
Electron diffraction
18%
Tensile strength
18%
Laser ablation
17%
Ultrafast lasers
16%
Aluminum
16%
Laser induced breakdown spectroscopy
16%
Tensile properties
15%
Laser modes
14%
Metallic glass
13%
Scanning
13%
Raman spectroscopy
13%
Laser beam welding
12%
Indentation
12%
Heat affected zone
11%
Debris
11%
Substrates
11%
Biomedical equipment
10%
Residual stresses
10%
Aluminum alloys
10%
Erosion
9%
Metals
9%
Plasmas
9%
Yield stress
8%
Characterization (materials science)
8%
Statistical methods
8%
Cooling
8%
Welding
8%
Gases
8%
Solidification
7%
Air
7%
Elongation
6%
Cracks
6%
X ray diffraction analysis
6%
Physics & Astronomy
lasers
31%
printing
30%
foils
29%
manufacturing
22%
micromachining
22%
stainless steels
18%
tensile strength
13%
mechanical properties
13%
laser-induced breakdown spectroscopy
12%
residual stress
11%
tensile properties
11%
debris
10%
metallic glasses
9%
erosion
9%
melting
9%
heat affected zone
9%
curves
9%
ablation
9%
metals
9%
indentation
8%
Raman spectroscopy
8%
scanning
8%
tubes
7%
machining
7%
air
7%
laser ablation
7%
formulations
6%
aluminum
6%
balls
6%
microstructure
5%
characterization
5%
plumes
5%
Chemical Compounds
Additive
35%
Tensile Strength
29%
Micromachining
27%
Foil
24%
Residual Stress
17%
Grain Size
15%
Ablation
15%
Yield Point
15%
Microstructure
13%
Metallic Glass
12%
Glass Structure
12%
Laser Induced Breakdown Spectroscopy
12%
Melting
12%
Ductility
11%
Laser Ablation
10%
Solidification
10%
Cooling
10%
Alloy
9%
Machining
8%
Length
7%
Metal
7%
Raman Spectroscopy
7%
Dimension
7%
Electron Particle
7%
X-Ray Diffractometry
7%
Plasma
6%
Specific Density
5%
Laser Cutting
5%
Energy
5%
Multiphoton Absorption
5%