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by atmospheric oxygen(passive) caused byL. Corrosion
by water , humidity , condensation , salt air and environmental contaminants(passive) caused bycorrosion
by the exposure of copper to the environment like oil and salt from your fingers or chemicals in water(passive) caused bycorrosion
water , corrosive atmospheres of salt and high industrial pollutants , chemicals , and contaminants(passive) is caused byCorrosion
Dissimilar metals in contact with each other in the presence of moisture and oxygenWILL causecorrosion
by the presence and activities of microorganisms in biofilms on the surface of pure metals or metal containing materials causing corrosion and damage(passive) caused bycorrosion
by aggressive atmospheres , such as humid air , condensation and an environment containing salt and chemicals(passive) caused bycorrosion
by humidity , condensation , salt air , and environmental contaminants(passive) caused bycorrosion
humidity , condensation , salt air , and environmental contaminants(passive) caused bycorrosion
Dirt , salt and iron particles in combination with moisturecan causecorrosion
moisture , high temperatures , acids , chemicals , solvents , humidity , and other environmental elements(passive) caused bycorrosion
Materials in the water , including salt , react with the steelcausingcorrosion
the air and moisture ... the surface of the metalcan causecorrosion
Water containing dissolved oxygen or carbon dioxide gases in the presence of metalcan causecorrosion
the steel ... the oxygen , moisture , & chloride ionscausecorrosion
fumes , acids , salt brines , sulfur , gases , salt air , and humidity(passive) is caused byCorrosion
the combined action of moisture , oxygen , and corrosive substances in the air(passive) is mainly caused byCorrosion
exposure to the elements such as water , salt , or dirt , chemicals , or marine growth(passive) can be caused byCorrosion
moisture , salts , oxygen , dirt , and other materialscausecorrosion
This water will attack the metal components in the systemcausingcorrosion
a chemical reaction between a metal and its environment ( water or Cause And Prevention Of Galvanic Corrosion(passive) is caused byCorrosion
concrete carbonation or high levels of chloride(passive) is generally caused byMicrocell corrosion
by the presence of contaminants like sulfur , moisture etc(passive) caused bycorrosion
salt , dirt and water and other contaminants(passive) caused bycorrosion
when steel is exposed to atmospheric conditions , such as salt , moisture , and oxygen(passive) is most often causedCorrosion
by the combination of organic acids , water , oxygen and copper(passive) caused bycorrosion
salt or aggressive chemicals such as sulfur or chlorine(passive) caused bycorrosion
by two metals being in contact in the presence of moisture(passive) caused bycorrosion
by galvanized coatings and corrosive media and atmospheric moisture , oxygen , and carbon dioxide exposure(passive) caused bycorrosion
by water , road grime , chemicals and salt(passive) caused bycorrosion
by water , acids or other chemicals in the system(passive) caused bycorrosion
by factors such as dirt , moisture , and salt(passive) caused bycorrosion
Water presence or condensation between the productscan causecorrosion
surfaces from water , oils , chemicals and oxidation ... over timecan causecorrosion
by water , heat , ... Pipe & Tube Products - Stainless Steel(passive) caused bycorrosion
Be it through the air or chemicals or moisture , electrons are removed from the metalcausingcorrosion
Moisture and/or chemical elements in the environmentcan causecorrosion
by elements such as water , oxygen and chlorine(passive) caused bycorrosion
Oxygen present in water and saltcausescorrosion
by corrosive gas such as hydrogen chloride produced during waste combustion and corrosion caused by a high - temperature molten salt(passive) caused bycorrosion
to accidentscan leadto accidents
pitting and/or loss of the metal components , which can lead to failure or premature removal and replacement of the componentscausespitting and/or loss of the metal components , which can lead to failure or premature removal and replacement of the components
to failure of critical parts of boiler systems , deposition of corrosion products in critical heat exchange areas , and overall efficiency losscan leadto failure of critical parts of boiler systems , deposition of corrosion products in critical heat exchange areas , and overall efficiency loss
to potential failure of critical components ( pipework , heat exchangers ) and precipitation of lost metal on heat exchange surfaces , leading to a loss of efficiencyleadingto potential failure of critical components ( pipework , heat exchangers ) and precipitation of lost metal on heat exchange surfaces , leading to a loss of efficiency
both pinhole leaks and stress cracking in metal componentscausesboth pinhole leaks and stress cracking in metal components
to metal loss that can result in critical system failures in heat exchangers , recirculating water piping , and process cooling equipmentleadsto metal loss that can result in critical system failures in heat exchangers , recirculating water piping , and process cooling equipment
to leaks as well as serious pipe damageleadsto leaks as well as serious pipe damage
the leaks(passive) are caused bythe leaks
leaks(passive) caused byleaks
to cracks and leaks that release water and lead to water damagecan leadto cracks and leaks that release water and lead to water damage
to rust , leaks , and tank failureleadsto rust , leaks , and tank failure
to corrosion - fatigue and stress - corrosion - cracking failures during operationmight leadto corrosion - fatigue and stress - corrosion - cracking failures during operation
to failure of critical parts of boiler systems , deposition of corrosion products in critical heat exchange areas , and overall efficiencycan leadto failure of critical parts of boiler systems , deposition of corrosion products in critical heat exchange areas , and overall efficiency
section loss in steel members and concrete reinforcement , which leads to strength degradation and increases the likelihood of bridge failurecan causesection loss in steel members and concrete reinforcement , which leads to strength degradation and increases the likelihood of bridge failure
air coil failure(passive) caused byair coil failure
loss of concrete mass , cracking of sewer pipes and ultimately , structural collapsecausesloss of concrete mass , cracking of sewer pipes and ultimately , structural collapse
section loss in metal members and concrete reinforcement , which results in strength degradation and increases the chance of bridge failurecan causesection loss in metal members and concrete reinforcement , which results in strength degradation and increases the chance of bridge failure
to corrosion - fatigue and stress - corrosion - cracking failuresmight leadto corrosion - fatigue and stress - corrosion - cracking failures
to cracks and holes that leak waterleadsto cracks and holes that leak water
loss of strength and integrity in a material ... resulting in defects or critical failurescan causeloss of strength and integrity in a material ... resulting in defects or critical failures
to failure or damage in the aluminum alloymay leadto failure or damage in the aluminum alloy
corrosion spots and areas of material loss(passive) caused bycorrosion spots and areas of material loss
pitting and metal loss that can result in critical procedure failures sometimes catastrophiccan causepitting and metal loss that can result in critical procedure failures sometimes catastrophic
plant ... waste of valuable ... loss or contamination of product , reduction in [ ? ] , costly maintenance , and expensivecausesplant ... waste of valuable ... loss or contamination of product , reduction in [ ? ] , costly maintenance , and expensive
section loss or cracks in the steelcausessection loss or cracks in the steel
part loss in steel members and concrete reinforcement , which results in power degradation and increases the likelihood of bridge failurecould causepart loss in steel members and concrete reinforcement , which results in power degradation and increases the likelihood of bridge failure
part loss in steel members and concrete reinforcement , which results in power degradation and increases the likelihood of bridge failuremay causepart loss in steel members and concrete reinforcement , which results in power degradation and increases the likelihood of bridge failure
to failure of metal components in a cooling systemcan leadto failure of metal components in a cooling system
pitting and metal reduction that can cause critical process failures sometimes catastrophiccan causepitting and metal reduction that can cause critical process failures sometimes catastrophic
poor reliability in old vehicles and low use leads to corrosion problemscausespoor reliability in old vehicles and low use leads to corrosion problems
material defects , holes , and even crackscausesmaterial defects , holes , and even cracks
to rust development , weakening , discoloration and failure of the surfacecan leadto rust development , weakening , discoloration and failure of the surface
the deterioration of steel and concrete over timecausesthe deterioration of steel and concrete over time
in a loss of pressure as well as leaksresultingin a loss of pressure as well as leaks
the system , such as tiny leaks from joints or pin - holes in the radiator(passive) caused bythe system , such as tiny leaks from joints or pin - holes in the radiator
to pitting and steel reduction that can result in significant method failuresmay leadto pitting and steel reduction that can result in significant method failures
compressor damage , hose leakage and metal line damagecan causecompressor damage , hose leakage and metal line damage
to failure or damage in the aluminummay leadto failure or damage in the aluminum
Puddles of green , yellow or orange coolant under your car(passive) could be caused byPuddles of green , yellow or orange coolant under your car
in failure of the system and expensive replacementresultingin failure of the system and expensive replacement