Keyphrases
Sigma Phase
77%
Active Screen Plasma
41%
Co-alloying
41%
Bipolar Plate
34%
Duplex
34%
Proton Exchange Membrane Fuel Cell (PEMFC)
31%
Stainless Steel Surface
30%
Active Screen Plasma Nitriding
29%
316 Austenitic Stainless Steel
29%
Phase Layers
27%
316 Stainless Steel
27%
Plasma Surfacing
27%
Austenitic Stainless Steel
26%
Wear-resistant
21%
Interfacial Contact Resistance
20%
Nitrides
20%
Treatment Conditions
17%
Plasma Treatment
17%
CoCrMo
17%
Corrosion Resistance
16%
Carbon Diffusion
16%
Plasma Carburizing
16%
Catalyst Layer
13%
Direct Methanol Fuel Cell
13%
Transfer Layer
13%
Surface Layer Formation
13%
Plasma Hardening
13%
Antibacterial Durability
13%
Phase Hardening
13%
Stability Behavior
13%
Fuel Cell Bipolar Plate
13%
Thermomechanical Stability
13%
UNS S31803 Duplex Stainless Steel
13%
Pt Nanowire
13%
Surface Systems
13%
Oxidation Behavior
13%
Glow Discharge Plasma
13%
Niobium
13%
Novel Antimicrobials
13%
Carbon Coating
13%
Microtexture
13%
Systems-based
13%
Antibacterial Coating
13%
Antibacterial Stainless Steel
13%
Microstructure Characterization
13%
Compressive Stress
13%
Low Temperature Plasma Nitriding
13%
Mass Transfer
13%
Low-temperature Plasma
13%
Diffusion Process
13%
Prosthesis
13%
CoCrMo Alloy
13%
Tensile Stress
13%
Elevated Temperature
13%
Alloying Treatment
13%
Phase Coding
13%
Femtosecond Laser Texturing
13%
Athermal
13%
Stainless Steel
11%
High Temperature Gas Nitriding
11%
Plasma Nitriding Treatment
11%
Energy Target
10%
Department of Energy
10%
Tribological Properties
10%
Treated Surface
10%
Surface Texture
10%
Hydrostatic Compressive Stress
9%
Plasma Technology
9%
Scanning Electron Microscopy
9%
AISI 316L
9%
Microstructure
8%
Mechanical Behavior
8%
Staphylococcus Aureus
8%
Nitriding Temperature
7%
Stainless Steel Bipolar Plate
6%
Catalytic Performance
6%
Gas Diffusion Layer
6%
UNS S31803
6%
Expanded Ferrite
6%
Colorimetric Interferometry
6%
High Performance
6%
Austenitic
6%
Austenite
6%
Steel Sample
6%
X Ray Diffraction
6%
Plasma Nitriding
6%
Corrosion Properties
6%
Surface Engineering Process
6%
GDOES
6%
Fe3N
6%
Fuel Cell Performance
6%
Laser-induced Periodic Surface Structures (LIPSS)
6%
Wear Resistance
6%
Deposition Layer
6%
Duplex Treatment
5%
Mechanical Properties
5%
In Situ
5%
SS316L
5%
Surface Properties
5%
Engineering
Austenitic Stainless Steel
50%
Stainless Steel
49%
Bipolar Plate
41%
Alloying
41%
Plasma Nitriding
41%
Proton-Exchange Membrane Fuel Cells
31%
Steel Surface
29%
Plasma Treatment
17%
Surface Layers
17%
Fuel Cell
16%
Direct Methanol Fuel Cell
13%
Antibacterial Stainless Steel
13%
Antibacterial Surface
13%
Compressive Stress
13%
Textured Surface
13%
Laser Structuring
13%
Plasma Technology
13%
Femtosecond Laser
13%
Surface System
13%
Catalyst Layer
13%
Duplex Stainless Steel
13%
Nitriding
13%
Tensile Stress σ
13%
Mechanical Stability
13%
Elevated Temperature
13%
Nanowire
13%
Corrosion Resistance
12%
Low-Temperature
11%
Temperature Plasma
11%
Austenite
10%
Diffusion Process
10%
Experimental Result
10%
Gas Nitriding
9%
Mechanical Property
9%
Department of Energy
8%
Durables
6%
Low Wear Rate
6%
Fold Increase
6%
Pulsed Laser
6%
Texturing
6%
Tribological Behavior
6%
Nanoscale
6%
Antibacterial Property
6%
Functional Property
6%
Gas Diffusion Layer
6%
Corrosion Property
6%
Applied Stress
6%
Electrical Conductivity
6%
Fuel Cell Performance
6%
Promising Candidate
6%
Wear Resistance
6%
Layer Structure
6%
Light Emission
5%
Glow Discharge
5%
Ray Diffraction
5%
Steel Sample
5%
Material Science
Surface (Surface Science)
100%
Austenitic Stainless Steel
64%
Alloying
43%
Stainless Steel
33%
Nitriding
27%
Silver
25%
Proton-Exchange Membrane Fuel Cells
15%
Ultimate Tensile Strength
13%
Mechanical Stability
13%
Niobium
13%
Nanowire
13%
Methanol Fuels
13%
Oxidation Reaction
13%
Duplex Stainless Steel
13%
Carbon-Based Coating
13%
Theoretical Modeling
13%
Microstructure Characterization
13%
Diffusivity
13%
Surface Engineering
9%
Contact Resistance
8%
Corrosion
8%
Austenite
7%
Copper Ion
6%
Thin Films
6%
Nanoparticle
6%
Catalysis
6%
Film Thickness
6%
Corrosion Resistance
5%
Wear Resistance
5%