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Corrosion of stainless steel in fire protection systems
Leena Carpén
VTT Technical Research Centre of Finland
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Dive into the research topics of 'Corrosion of stainless steel in fire protection systems'. Together they form a unique fingerprint.
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Keyphrases
In Fire
100%
Fire Protection System
100%
Stainless Steel Corrosion
100%
Stainless Steel
75%
Corrosion Resistance
50%
Carbon Steel
50%
Heat Affected Zone
50%
Corrosion Failure
50%
Firewater
50%
Power Plant
25%
Failure Cases
25%
Microbiologically Influenced Corrosion
25%
Natural Water
25%
Cast Iron
25%
Austenitic Stainless Steel
25%
River Water
25%
Corrosion Damage
25%
Natural Sources
25%
Failure Mechanism
25%
Steel Factory
25%
Surface Oxide Film
25%
Welded pipe
25%
Lake Water
25%
Tap Water
25%
Iron Steel
25%
Weld nugget
25%
Localized Corrosion Failure
25%
INIS
stainless steels
100%
corrosion
100%
protection
100%
fires
100%
failures
66%
risks
33%
water
33%
corrosion resistance
33%
damage
33%
pipes
33%
carbon steels
33%
welds
33%
welding
33%
heat affected zone
33%
surfaces
16%
oxides
16%
iron
16%
films
16%
power plants
16%
heat
16%
oxygen
16%
recommendations
16%
rivers
16%
roots
16%
lakes
16%
drinking water
16%
cast iron
16%
austenitic steels
16%
proposals
16%
shielding
16%
Engineering
Fire Protection
100%
Stainless Steel
100%
Heat Affected Zone
50%
Carbon Steel
50%
Corrosion Resistance
50%
Localized Corrosion
25%
Natural Water
25%
Induced Corrosion
25%
Oxide Film
25%
Corrosion Damage
25%
Natural Source
25%
Surface Oxide
25%
Austenitic Stainless Steel
25%
Failure Mechanism
25%
Electric Power Plant
25%
Cast Iron
25%
Material Science
Stainless Steel
100%
Corrosion
100%
Corrosion Resistance
33%
Carbon Steel
33%
Cast Iron
16%
Surface (Surface Science)
16%
Oxide Film
16%
Austenitic Steel
16%