Engineering & Materials Science
Plasmas
100%
Austenitic stainless steel
69%
Nitriding
43%
Alloying
42%
Nitrogen
40%
Characterization (materials science)
30%
Texturing
29%
Proton exchange membrane fuel cells (PEMFC)
26%
Hardening
21%
Carbon
20%
Wear of materials
18%
Stainless steel
18%
Femtosecond lasers
17%
Coatings
17%
Silver
16%
Durability
16%
Direct methanol fuel cells (DMFC)
15%
Niobium
14%
Fuel cells
14%
Nanowires
14%
Duplex stainless steel
14%
Contact resistance
13%
Prostheses and Implants
13%
Textures
12%
Compressive stress
11%
Microstructure
11%
Corrosion resistance
11%
Diffusion in gases
11%
Mass transfer
10%
Bactericides
9%
Catalysts
9%
Temperature
9%
Catalysis
9%
Silver nanoparticles
8%
Friction
7%
Corrosion
7%
Interferometry
6%
Austenite
6%
Staphylococcus aureus
6%
Glow discharges
6%
Nanoparticles
5%
Ions
5%
Scanning electron microscopy
5%
Physics & Astronomy
austenitic stainless steels
54%
fuel cells
53%
stainless steels
44%
nitriding
40%
alloying
32%
nitrogen
31%
durability
18%
membranes
17%
carbon
17%
silver
17%
protons
15%
contact resistance
13%
surface layers
12%
characterization
12%
corrosion resistance
11%
tensile stress
11%
methyl alcohol
11%
niobium
11%
bactericides
10%
hardening
10%
catalysts
10%
performance
10%
mass transfer
10%
gaseous diffusion
9%
nanowires
9%
luminescence
8%
oxidation
8%
coatings
7%
microstructure
6%
austenite
6%
catalysis
6%
staphylococcus
5%
food
5%
lasers
5%
Chemistry
Plasma
46%
Surface
25%
Wear
20%
Nitrogen
18%
Crystalline Texture
15%
Coating Agent
13%
Microstructure
11%
Mass Transfer
9%
Plate Like Crystal
9%
Diffusion
8%
Alloy
8%
Bactericide Agent
7%
Wear Rate
7%
Hip
6%
Interferometry
6%
Corrosion
5%
Friction Coefficient
5%
Percent Reduction
5%
Carbon Atom
5%
Gas
5%
Silver Nanoparticle
5%