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Corrosion 1

R
Rhiza

Corrosion is the deterioration of metals due to chemical or electrochemical reactions with their environment. There are several types of corrosion including general corrosion, pitting corrosion, intergranular corrosion, stress corrosion, crevice corrosion, galvanic corrosion, erosion corrosion, cavitation corrosion, and fretting corrosion. The document discusses the causes and characteristics of each type. Corrosion can be prevented by selecting the proper metal type, protective coatings, environmental controls, sacrificial anodes, corrosion inhibitors, and design modifications. Surface pretreatments and coatings are important for inhibiting corrosion.

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Corrosion
• Corrosion is when a refined metal is naturally converted to a more stable form such as its oxide, hydroxide or sulphide state this leads to deterioration of the material. • Deterioration or destruction of metals and alloys in the presence of an environment by chemical or electrochemical means. • Corrosion can be viewed as a universal phenomenon, omnipresent and omnipotent.
Some of the major harmful effects of corrosion are: • Nuclear plant shutdown due to failure, for example, nuclear reactor during decontamination process. • Replacement of corroded equipment resulting in heavy expenditure. • High cost preventive maintenance such as painting. • Loss of efficiency. • Loss of product from a corroded container. • Safety requirement measures from a fire hazard or explosion or release of toxic product. • Health problems, for example, drinking water contamination with lead is likely due to corrosion.
Corrosion has been classified into 3 different methods 1. Low temperature corrosion and high temperature corrosion 2. Electrochemical corrosion and chemical corrosion 3. Wet and Dry corrosion.
Wet corrosion occurs when the metal is in contact with an electrolytic conducting liquid or when two dissimilar metals or alloys are either immersed or dipped partially in the electrolytic conducting solutions. This is always associated with low temperature conditions.
The corrosion process involves two reactions 1. Anode M (metal) → Mn+ + ne− (oxidation) Mn + (metal ion) → Dissolves in solution Mn + (metal ion) → Forms compound such as oxide 2. Cathode 2H+ + 2e− → H2↑ (in acid solution) 2H2O + 2e− → H2↑ + 2OH− (in alkaline solution) O2 + 2H2O + 4e− → 4OH− (in neutral solution)
Dry corrosion takes place mainly through the direct chemical action of atmospheric gases and vapors present in the environment. This is most often associated with high temperature.
Forms of corrosion
1. General corrosion This general corrosion also called as a uniform attack is the most common form of corrosion. It is normally characterized by a chemical or electrochemical reaction which proceeds uniformly over the entire exposed surface or over a large area. The metal becomes thinner and eventually fails. Intrinsic – Independ of Design configuration
2. Pitting corrosion or localized corrosion Pitting corrosion is a localized attack resulting in the formation of holes in the metals. These holes are relatively small and they are looks like a rough surface, they were sometimes isolated or so close together. Pitting is one of the most destructive and insidious forms of corrosion. Intrinsic – Independ of Design configuration
3. Intergranular corrosion Also known as intergranular attack, is a form of corrosion where the boundaries of crystallites of the material are more susceptible to corrosion than their insides. Intrinsic – Independ of Design configuration
4. Stress corrosion The cracking of metal or alloy by the combined action of a tensile stress and a corrodent is known as stress corrosion cracking. The susceptibility to stress corrosion cracking is due to certain metallurgical factors such as, Chemical composition, Preferential orientation of grains, Composition and distribution of precipitates, and Dislocation structure and environmental factors and structure of metal. Intrinsic – Independ of Design configuration
5. Crevice corrosion or deposit corrosion This kind of corrosion is attacked generally within crevices associated with small volumes of stagnant solution trapped in holes, surfaces, joints and crevices under bolt and rivet heads. It is also known as deposit or gasket corrosion. Extrinsic – Depends of Design configuration
6. Galvanic corrosion It occurs when a potential difference exists between two dissimilar metals immersed in a corrosive solution. This potential difference produces a flow of electrons between the metals. Several investigations have shown that, galvanic corrosion is directly proportional to the area of the cathodic to the anodic metal Extrinsic – Depends of Design configuration
7. Erosion corrosion It is the increase of attack of a metal because of relative movement between a corrosive medium and the metal surface. This type of erosion corrosion is usually associated with systems where high velocities of corrosive fluids or gases are encountered. This corrosion can be observed in piping system such as bends, elbows, pumps, condensers, etc. Extrinsic – Depends of Design configuration
Cavitation's corrosion It is a special type of erosion corrosion which is caused due to the formation of vapor bubbles in a corrosive environment near a metal surface and when the bubbles collapse, attack arises for example, hydraulic turbulence, ship propellers, etc. It is similar to pitting corrosion but the surface is rough and has many close spaced pits
8. Fretting corrosion Fretting is a wear phenomenon enhanced by corrosion. It involves wear of a metal or alloy when in contact with another solid material in dry or humid air. Fretting is the result of abrasive wear surface oxide films, which form a contacting surfaces under load in atmospheric air . The factors which affect fretting corrosion are: • Magnitude of relative motion • Temperature • Environment • Metallurgical factors Extrinsic – Depends of Design configuration
9. Corrosion fatigue It is defined as, “the reduction of the fatigue strength due to the presence of corrosive environment”. Corrosion fatigue occurs due to the combined action of tensile and compressive stress alternatively. Fatigue occurs at lower stress in corrosive environment. Extrinsic – Depends of Design configuration
You can prevent corrosion by selecting the right: • Metal Type • Protective Coating • Environmental Measures • Sacrificial Coatings • Corrosion Inhibitors • Design Modification
Corrosion Inhibition A comprehensive review of corrosion inhibition on various metals and alloys using either inorganic or organic pretreatment methods has been presented. Surface pretreatment coatings, whether they are inorganic or organic, serve as the first line of defense in inhibiting corrosion. The selection of the proper pretreatment coating is essential in providing basic corrosion protection for the underlying metal or alloy and promoting adhesion and compatibility between the pretreatment and primer coating.
Corrosion 1

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Corrosion 1

  • 2.
  • 3. • Corrosion is when a refined metal is naturally converted to a more stable form such as its oxide, hydroxide or sulphide state this leads to deterioration of the material. • Deterioration or destruction of metals and alloys in the presence of an environment by chemical or electrochemical means. • Corrosion can be viewed as a universal phenomenon, omnipresent and omnipotent.
  • 4. Some of the major harmful effects of corrosion are: • Nuclear plant shutdown due to failure, for example, nuclear reactor during decontamination process. • Replacement of corroded equipment resulting in heavy expenditure. • High cost preventive maintenance such as painting. • Loss of efficiency. • Loss of product from a corroded container. • Safety requirement measures from a fire hazard or explosion or release of toxic product. • Health problems, for example, drinking water contamination with lead is likely due to corrosion.
  • 5. Corrosion has been classified into 3 different methods 1. Low temperature corrosion and high temperature corrosion 2. Electrochemical corrosion and chemical corrosion 3. Wet and Dry corrosion.
  • 6. Wet corrosion occurs when the metal is in contact with an electrolytic conducting liquid or when two dissimilar metals or alloys are either immersed or dipped partially in the electrolytic conducting solutions. This is always associated with low temperature conditions.
  • 7. The corrosion process involves two reactions 1. Anode M (metal) → Mn+ + ne− (oxidation) Mn + (metal ion) → Dissolves in solution Mn + (metal ion) → Forms compound such as oxide 2. Cathode 2H+ + 2e− → H2↑ (in acid solution) 2H2O + 2e− → H2↑ + 2OH− (in alkaline solution) O2 + 2H2O + 4e− → 4OH− (in neutral solution)
  • 8. Dry corrosion takes place mainly through the direct chemical action of atmospheric gases and vapors present in the environment. This is most often associated with high temperature.
  • 10. 1. General corrosion This general corrosion also called as a uniform attack is the most common form of corrosion. It is normally characterized by a chemical or electrochemical reaction which proceeds uniformly over the entire exposed surface or over a large area. The metal becomes thinner and eventually fails. Intrinsic – Independ of Design configuration
  • 11. 2. Pitting corrosion or localized corrosion Pitting corrosion is a localized attack resulting in the formation of holes in the metals. These holes are relatively small and they are looks like a rough surface, they were sometimes isolated or so close together. Pitting is one of the most destructive and insidious forms of corrosion. Intrinsic – Independ of Design configuration
  • 12. 3. Intergranular corrosion Also known as intergranular attack, is a form of corrosion where the boundaries of crystallites of the material are more susceptible to corrosion than their insides. Intrinsic – Independ of Design configuration
  • 13. 4. Stress corrosion The cracking of metal or alloy by the combined action of a tensile stress and a corrodent is known as stress corrosion cracking. The susceptibility to stress corrosion cracking is due to certain metallurgical factors such as, Chemical composition, Preferential orientation of grains, Composition and distribution of precipitates, and Dislocation structure and environmental factors and structure of metal. Intrinsic – Independ of Design configuration
  • 14. 5. Crevice corrosion or deposit corrosion This kind of corrosion is attacked generally within crevices associated with small volumes of stagnant solution trapped in holes, surfaces, joints and crevices under bolt and rivet heads. It is also known as deposit or gasket corrosion. Extrinsic – Depends of Design configuration
  • 15. 6. Galvanic corrosion It occurs when a potential difference exists between two dissimilar metals immersed in a corrosive solution. This potential difference produces a flow of electrons between the metals. Several investigations have shown that, galvanic corrosion is directly proportional to the area of the cathodic to the anodic metal Extrinsic – Depends of Design configuration
  • 16. 7. Erosion corrosion It is the increase of attack of a metal because of relative movement between a corrosive medium and the metal surface. This type of erosion corrosion is usually associated with systems where high velocities of corrosive fluids or gases are encountered. This corrosion can be observed in piping system such as bends, elbows, pumps, condensers, etc. Extrinsic – Depends of Design configuration
  • 17. Cavitation's corrosion It is a special type of erosion corrosion which is caused due to the formation of vapor bubbles in a corrosive environment near a metal surface and when the bubbles collapse, attack arises for example, hydraulic turbulence, ship propellers, etc. It is similar to pitting corrosion but the surface is rough and has many close spaced pits
  • 18. 8. Fretting corrosion Fretting is a wear phenomenon enhanced by corrosion. It involves wear of a metal or alloy when in contact with another solid material in dry or humid air. Fretting is the result of abrasive wear surface oxide films, which form a contacting surfaces under load in atmospheric air . The factors which affect fretting corrosion are: • Magnitude of relative motion • Temperature • Environment • Metallurgical factors Extrinsic – Depends of Design configuration
  • 19. 9. Corrosion fatigue It is defined as, “the reduction of the fatigue strength due to the presence of corrosive environment”. Corrosion fatigue occurs due to the combined action of tensile and compressive stress alternatively. Fatigue occurs at lower stress in corrosive environment. Extrinsic – Depends of Design configuration
  • 20. You can prevent corrosion by selecting the right: • Metal Type • Protective Coating • Environmental Measures • Sacrificial Coatings • Corrosion Inhibitors • Design Modification
  • 21. Corrosion Inhibition A comprehensive review of corrosion inhibition on various metals and alloys using either inorganic or organic pretreatment methods has been presented. Surface pretreatment coatings, whether they are inorganic or organic, serve as the first line of defense in inhibiting corrosion. The selection of the proper pretreatment coating is essential in providing basic corrosion protection for the underlying metal or alloy and promoting adhesion and compatibility between the pretreatment and primer coating.