Keyphrases
Ambient Temperature
20%
Aqueous Conditions
20%
Aqueous Corrosion
100%
Borides
20%
Carbides
20%
Coated Steel
100%
Coating Materials
20%
Corrosion
20%
Corrosion Properties
100%
Corrosion Protection
20%
Corrosion Resistance
100%
Corrosive Environment
20%
Defect Form
20%
Direct Pathway
20%
Electrochemical Porosity
20%
High Hardness
20%
High Speed Steel
20%
Immersion Test
20%
Inherent Stability
20%
Local Defect
20%
Nitrides
20%
Physical Vapor Deposition
40%
Physical Vapor Deposition Processes
20%
Pinhole
20%
Porosity
20%
Porosity Measurement
20%
Possible Sources
20%
Rutile
20%
Steel Section
20%
Sulphuric Acid Solution
20%
Thin Film Coating
20%
TiAlN
100%
TiAlN Coating
40%
TiN Coating
20%
Wear Resistance
20%
Engineering
Acid Solution
20%
Base Material
40%
Coated Steel
100%
Coating Material
20%
Corrosion Property
100%
Corrosion Protection
20%
Corrosion Resistance
100%
Corrosive Environment
20%
Defects
20%
Direct Path
20%
High-Speed Steel
20%
Intermediate Layer
20%
Nitride
20%
Physical Vapor Deposition
60%
Porosity
20%
Porosity Measurement
20%
Preliminary Analysis
20%
Thin Films
20%
Vapor Deposition Method
20%
Wear Resistance
20%
INIS
aluminium
11%
ambient temperature
11%
applications
11%
borides
11%
carbides
11%
coatings
100%
corrosion
100%
corrosion protection
11%
corrosion resistance
55%
defects
11%
deposition
11%
electrochemistry
11%
environment
11%
hardness
11%
layers
11%
nitrides
11%
physical vapor deposition
33%
porosity
22%
solutions
11%
speed
11%
stability
11%
steels
100%
sulfuric acid
11%
thickness
22%
thin films
11%
tin
11%
titanium
11%
transition metals
11%
wear resistance
11%
Material Science
Aluminum
20%
Boride
20%
Carbide
20%
Corrosion
100%
Corrosion Protection
20%
Corrosion Resistance
100%
High Speed Steel
20%
Nitride Compound
20%
Physical Vapor Deposition
60%
Thin Film Coating
20%
Titanium
20%
Transition Metal
20%
Wear Resistance
20%