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Corrosion fatigue of titanium in sea water under cathodic polarisation
Päivi Varis, Irina Aho-Mantila
VTT Technical Research Centre of Finland
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Dive into the research topics of 'Corrosion fatigue of titanium in sea water under cathodic polarisation'. Together they form a unique fingerprint.
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Keyphrases
Rutile
100%
Seawater
100%
Corrosion Fatigue
100%
Cathodic Polarization
100%
Crack Growth
85%
Saturated Calomel Electrode
42%
Rate Test
28%
Hydrogen Embrittlement
28%
Corrosion
14%
Scanning Electron Microscopy
14%
Room Temperature
14%
Cathodic Reaction
14%
Corrosion Properties
14%
Steel Section
14%
Water Application
14%
Cathodic Potential
14%
Low Dose Rate
14%
Electron Microscopy Examination
14%
Fatigue Properties
14%
Environmental Sensitivity
14%
Fatigue Crack Growth
14%
Ti-6A1-4V
14%
Aggressive Conditions
14%
Accelerated Fatigue Test
14%
Universal Testing Machine
14%
Hydrogen Uptake
14%
Servo-hydraulic
14%
Titanium Grade 5
14%
Titanium Grade 2
14%
Fracture Surface Morphology
14%
INIS
titanium
100%
seawater
100%
polarization
100%
corrosion fatigue
100%
crack growth
77%
hydrogen
33%
air
33%
electrodes
33%
potentials
33%
comparative evaluations
22%
environment
22%
corrosion
22%
fatigue
22%
hydrogen embrittlement
22%
surfaces
11%
applications
11%
morphology
11%
scanning electron microscopy
11%
cracking
11%
range
11%
uptake
11%
testing
11%
steels
11%
fractures
11%
cracks
11%
temperature range 0273-0400 k
11%
hydraulics
11%
Engineering
Crack Growth Rate
100%
Corrosion Fatigue
100%
Rate Test
50%
Crack Growth
50%
Hydrogen Embrittlement
50%
Cathodic Reaction
25%
Corrosion Property
25%
Prevent Corrosion
25%
Fracture Surface
25%
Fatigue Property
25%
Hydraulics
25%
Fatigue Crack Growth
25%
Testing Machine
25%
Surface Morphology
25%
Room Temperature
25%
Servomotors
25%
Steel Part
25%
Material Science
Titanium
100%
Corrosion Fatigue
100%
Crack Growth
66%
Corrosion
22%
Hydrogen Embrittlement
22%
Surface Morphology
11%
Hydraulics
11%
Scanning Electron Microscopy
11%
Fatigue Crack Growth
11%