Engineering & Materials Science
High-entropy alloys
100%
Plasmas
91%
Nitriding
83%
Biopolymers
45%
Austenite
44%
Nitrogen
38%
Entropy
27%
Carbon
24%
Decomposition
23%
Austenitic stainless steel
23%
Microstructure
22%
Temperature
18%
Diffraction patterns
15%
Shear bands
14%
Electron diffraction
14%
Substrates
13%
Etching
11%
Transmission electron microscopy
11%
Electric Conductivity
10%
Wear resistance
10%
Hardening
10%
Corrosion resistance
10%
Wetting
9%
Stainless steel
9%
Degradation
9%
Energy dispersive spectroscopy
8%
Carbon nanofibers
6%
Graphene oxide
6%
Electrochemical properties
6%
Conductive materials
6%
Polymer matrix composites
6%
Corrosion
6%
Insulating materials
5%
Biocompatibility
5%
Electric properties
5%
Chemistry
Plasma
61%
Entropy
54%
Interstitial
46%
Alloy
46%
Biopolymer
31%
Surface
28%
Microstructure
22%
Decomposition
21%
Nitrogen
19%
Diffusion
18%
Electron Diffraction
11%
Wear
10%
Shear
10%
Etching
9%
Corrosion Resistance
9%
Multicomponent Reaction
9%
Wind Energy
7%
Electrical Conductivity
7%
Resistance
6%
Industry
6%
Corrosion
5%
Reinforced Plastic
5%
Shear Strength
5%
Carbon Nanofibre
5%
Physics & Astronomy
biopolymers
41%
nitriding
39%
nitrogen
24%
entropy
24%
carbon
21%
microstructure
19%
augmentation
12%
wear resistance
11%
lamella
11%
corrosion resistance
11%
austenite
10%
hardening
10%
wettability
10%
stainless steels
9%
interstitials
9%
electron diffraction
9%
diffraction patterns
9%
etching
8%
industries
7%
shear
7%
transmission electron microscopy
7%
windpower utilization
7%
engineering
6%
expansion
6%
polymer matrix composites
6%
vulnerability
6%
electrical resistivity
5%
biocompatibility
5%
shear strength
5%
energy storage
5%
carbon fibers
5%