extractive corrosion - ορισμός. Τι είναι το extractive corrosion
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Τι (ποιος) είναι extractive corrosion - ορισμός

TYPE OF CORROSION
Hot Corrosion; Hot corrosion; High Temperature Corrosion; HOT Corrosion; HOT corrosion; Fuel ash corrosion; High temperature corrosion
  • High-temperature sulfur corrosion of a 12 CrMo 19 5 pipe stub

Microbial corrosion         
CORROSION CAUSED OR PROMOTED BY MICROORGANISMS
Microbially influenced corrosion
Microbial corrosion, also called microbiologically influenced corrosion (MIC), microbially induced corrosion (MIC) or biocorrosion, is "corrosion affected by the presence or activity (or both) of microorganisms in biofilms on the surface of the corroding material." This corroding material can be either a metal (such as steel or aluminum alloys) or a nonmetal (such as concrete or glass).
Corrosion fatigue         
  • alt=Graph showing effects of both true and stress corrosion
  • alt=Graph illustrating effects of air versus tap water on steels
  • alt=Graph showing increased crack growth under corrosion stress
  • alt=Graph of crack growth rate relative to corrosion fatigue
  • alt=Graph of crack growth with corrosion fatigue
FATIGUE IN A CORROSIVE ENVIRONMENT
Corrosion Fatigue
Corrosion fatigue is fatigue in a corrosive environment. It is the mechanical degradation of a material under the joint action of corrosion and cyclic loading.
corrode         
  • climbing descender]] is anodized with a yellow finish.
  • electrified railway]] line
  • The US military [[shrink wrap]]s equipment such as helicopters to protect them from corrosion and thus save millions of dollars
  • type 316 stainless steel]]) of a heat exchanger in a seawater desalination plant
  • Galvanic corrosion of an aluminium plate occurred when the plate was connected to a mild steel structural support.
  • Galvanized]] surface
  • Glass corrosion
  • [[Gold nugget]]s do not naturally corrode, even on a geological time scale.
  • These [[neodymium magnet]]s corroded extremely rapidly after only 5 months of outside exposure
  • [[Ozone cracking]] in [[natural rubber]] tubing
  • Diagram showing cross-section of pitting corrosion
  • Sacrificial anode attached to the hull of a ship
  • Sensitized metallic microstructure, showing wider intergranular boundaries
  • The collapsed Silver Bridge, as seen from the Ohio side
  • date=2007-11-05 }}. Glassproperties.com. Retrieved on 2012-07-15.</ref>
  • Normal microstructure of Type 304 stainless steel surface
GRADUAL DESTRUCTION OF MATERIALS BY CHEMICAL REACTION WITH ITS ENVIRONMENT
Corrode; Hydrogen grooving; Corrosions; Corroding; Corrosivity; Corrosives; Corrosion Types; Corrosion-resistant; Corrossion; Chemical durability; Hydrolytic class; Corrosion resistance; Corrosion and rusting; Corrosion prevention; Metal corrosion; Rusting of iron; Glass classification; Surface corrosion
v. a.
1.
Erode, canker, eat away.
2.
Consume, waste, wear away, prey upon, impair.
3.
Blight, poison, envenom, embitter.

Βικιπαίδεια

High-temperature corrosion

High-temperature corrosion is a mechanism of corrosion that takes place when gas turbines, diesel engines, furnaces or other machinery come in contact with hot gas containing certain contaminants. Fuel sometimes contains vanadium compounds or sulfates which can form compounds during combustion having a low melting point. These liquid melted salts are strongly corrosive for stainless steel and other alloys normally inert against the corrosion and high temperatures. Other high-temperature corrosions include high-temperature oxidation, sulfidation and carbonization. High temperature oxidation and other corrosion types are commonly modelled using the Deal-Grove model to account for diffusion and reaction processes.