# Corrosion - Definition, Corrosion Types, Effects, Prevention (2023)

Corrosion is one of the most common phenomena that we observe in our daily lives. You must have noticed that some objects made of iron are covered with an orange or reddish-brown coloured layer at some point in time. The formation of this layer is the result of a chemical process known as rusting, which is a form of corrosion.

Cossorion, in general, is a process through which refined metals are converted into more stable compounds such as metal oxides, metal sulfides, or metal hydroxides. Likewise, the rusting of iron involves the formation of iron oxides via the action of atmospheric moisture and oxygen. If we look at the science behind corrosion then we can say that it is a spontaneous/ irreversible process wherein the metals turn into a much stable chemical compound like oxides, sulphides, hydroxides, etc. We shall delve deeper into the concept of corrosion and understand its different factors including its meaning, types, prevention and more in this lesson.

### Table of Content

• Corrosion Definition
• Factors Affecting Corrosion
• Types of Corrosion
• Corrosion Examples and Reactions
• Prevention of Corrosion

## Corrosion Definition

What is Corrosion? Itis basically defined as a natural process that causes the transformation of pure metals into undesirable substances when they react with substances like water or air. This reaction causes damage and disintegration of the metal starting from the portion of the metal exposed to the environment and spreading to the entire bulk of the metal.

Corrosion is usually an undesirable phenomenon since it negatively affects the desirable properties of the metal. For example, iron is known to have good tensile strength and rigidity (especially alloyed with a few other elements). However, when subjected to rusting, iron objects become brittle, flaky, and structurally unsound.On the other hand, corrosion is a diffusion-controlled process and that it mostly occurs on exposed surfaces. Therefore, in some cases, attempts are made to reduce the activity of the exposed surface and increase a material’s corrosion resistance. Processessuch as passivation and chromate conversion are used. However, some corrosion mechanisms are not always visible and they are even less predictable.

Alternatively, corrosion can be classified as an electrochemical process since it usually involves redox reactions between the metal and certain atmospheric agents such as water, oxygen, sulphur dioxide, etc.

### Do All Metals Corrode?

Metals placed higher in the reactivity series such as iron, zinc, etc. get corroded very easily and metals placed lower in the reactivity series like gold, platinum and palladium do not corrode. The explanation lies in the fact that corrosion involves the oxidation of metals. As we go down the reactivity series tendency to get oxidised is very low (oxidation potentials is very low).

Interestingly, aluminium doesn’t corrode unlike other metals even though it is reactive. This is because aluminium is covered by a layer of aluminium oxide already. This layer of aluminium oxide protects it from further corrosion.

## Factors Affecting Corrosion

1. Exposure of the metals to air containing gases like CO2, SO2, SO3 etc.

2. Exposure of metals to moisture especially salt water (which increases the rate of corrosion).

3. Presence of impurities like salt (eg. NaCl).

4. Temperature: An increase in temperature increases corrosion.

5. Nature of the first layer of oxide formed: some oxides like Al2O3 forms an insoluble protecting layer that can prevent further corrosion. Others like rust easily crumble and expose the rest of the metal.

6. Presence of acid in the atmosphere: acids can easily accelerate the process of corrosion.

### Rate of Corrosion

TheDeal–Grove model is often used to describe the formation of an oxide layer. This model helps inpredicting and controlling oxide layer formation in a lot of diverse situations. Alternatively, the weight loss method is also used to measure corrosion.In this method, a clean weighed piece of the metal or alloy is exposed to the corrosive environment for a certain duration. This is followed by a cleaning process that removes the corrosion products. The piece is then weighed in to determine the loss of weight.

The rate of corrosion (R) is calculated as;

$$\begin{array}{l}R=\frac {kW}{\rho At}\end{array}$$

Where,

k= constant,

W= weight loss of the metal in timet,

(Video) corrosion | theories of corrosion | types of corrosion | prevention of corrosion | P-2, U-5 | P.E.

A= surface area of the metal exposed,

ρis the density of the metal (in g/cm³).

## Types of Corrosion

Some of the corrosion types include;

(i) Crevice Corrosion

Whenever there is a difference in ionic concentration between any two local areas of a metal, a localized form of corrosion know as crevice corrosion can occur. In a simple instance, this form of corrosion mostly occurs inconfined spaces (crevices). Examples of areas where crevice corrosion can occur are gaskets, the undersurface of washers, and bolt heads. All grades of aluminium alloys and stainless steels also undergo crevice corrosion. This is mainly because of the formation of a differential aeration cell that leads to the formation of corrosion inside the crevices.

(ii) Stress Corrosion Cracking

Stress Corrosion Cracking can be abbreviated to ‘SCC’ and refers to the cracking of the metal as a result of the corrosive environment and the tensile tress placed on the metal. It often occurs at high temperatures.

Example:Stress corrosion cracking of austenitic stainless steel in chloride solution.

(iii) Intergranular Corrosion

Intergranular corrosion occurs due to the presence of impurities in the grain boundaries that separate the grain formed during the solidification of the metal alloy. It can also occur via the depletion or enrichment of the alloy at these grain boundaries.

Example: Aluminum-base alloys are affected by IGC.

(iv) Galvanic Corrosion

When there exists an electric contact between two metals that are electrochemically dissimilar and are in an electrolytic environment, galvanic corrosion can arise. It refers to the degradation of one of these metals at a joint or at a junction. A good example of this type of corrosion would be the degradation that occurs when copper, in a salt-water environment, comes in contact with steel.

Example: When aluminium and carbon steel are connected and immersed in seawater, aluminium corrodes faster and steel is protected.

(iv) Pitting Corrosion

Pitting Corrosion is very unpredictable and therefore is difficult to detect. It is considered one of the most dangerous types of corrosion. It occurs at a local point and proceeds with the formation of a corrosion cell surrounded by the normal metallic surface. Once this ‘Pit’ is formed, it continues to grow and can take various shapes. The pit slowly penetrates metal from the surface in a vertical direction, eventually leading to structural failure it left unchecked.

Example: Consider a droplet of water on a steel surface, pitting will initiate at the centre of the water droplet (anodic site).

(v) Uniform Corrosion

This is considered the most common form of corrosion wherein an attack on the surface of the metal is executed by the atmosphere. The extent of the corrosion is easily discernible. This type of corrosion has a relatively low impact on the performance of the material.

(Video) Different types of corrosion with chemical reaction and it's prevention. #corrosion

Example: A piece of zinc and steel immersed in diluted sulphuric acid would usually dissolve over its entire surface at a constant rate.

(vi) Hydrogen Grooving

This is a corrosion of the piping by grooves that are formed due to the interaction of a corrosive agent, corroded pipe constituents, and hydrogen gas bubbles. Thebubbles usually remove the protective coating once it comes in contact with the material.

(vii)Metal Dusting

Metal dustingis a damaging form of corrosion that occurs when vulnerable materials are exposed to certain environments with high carbon activities including synthesis gas. The corrosion results in the break-up of bulk metal to metal powder. Corrosion occurs as a graphite layer is deposited on the surface of the metals fromcarbon monoxide(CO) in the vapour phase. This graphite layer then goes on to form meta-stable M3C species (where M is the metal) that usually moves away from the metal surface. In some cases, no M3C species may be observed. This means that the metal atoms have been directly transferred into the graphite layer.

(viii)Microbial Corrosion

Microbial corrosion which is also known as microbiologically influenced corrosion (MIC), is a type of corrosion that is caused bymicroorganisms. The most common one is chemoautotrophs. Both metallic and non-metallic materials either in the presence or absence of oxygen can be affected by this corrosion.

(viii) High-temperatureCorrosion

High-temperature corrosionas the name suggests is a type of corrosion of materials (mostly metals) due to heating. Chemical deterioration of metal can occur due to a hot atmosphere that contains gases such as oxygen, sulfur, or other compounds. These compounds are capable of oxidizing the materials (metals in this case) easily. For example, materials used in car engines have to resist sustained periods at high temperatures during which they can be affected by an atmosphere containing corrosive products of combustion.

## Corrosion Examples, Reactions and Effects

Here are some of the typical examples of corrosion as seen mostly in metals.

1. Copper Corrosion

When copper metal is exposed to the environment it reacts with the oxygen in the atmosphere to form copper (I) oxide which is red in colour.

2Cu(s) + ½ O2(g) → Cu2O(s)

Cu2O further gets oxidised to form CuO which is black in colour.

Cu2O(s) + ½ O2(g) → 2CuO(s)

This CuO reacts with CO2, SO3 and H2O (present in the atmosphere to form Cu2(OH)2(s) (Malachite) which is blue in colour and Cu4SO4(OH)6(s) (Brochantite) which is green in colour.

This is why we observe copper turning bluish-green in colour.

A typical example of this is the colour of the statue of liberty which has the copper coating on it turning blue-green in colour.

2. Silver Tarnishing

(Video) THE CONCEPT OF CORROSION | manifestation, types example, rate, effects and prevention.

Silver reacts with sulphur and sulphur compounds in the air give silver sulphide (Ag2S) which is black in colour. Exposed silver forms Ag2S as it reacts with the H2S(g) in the atmosphere which is present due to certain industrial processes.

2Ag(s) + H2S(g) → Ag2S(s) + H+2+(g)

3. Corrosion of Iron (Rusting)

Rusting of iron which is the most commonly seen example happens when iron comes in contact with air or water. The reaction could be seen as a typical electrochemical cell reaction. Consider the diagram given below.

Here metal iron loses electrons and gets converted toFe{aq}2+(this could be considered as the anode position). The electrons lost will move to the other side where they combine with H+ ions. H+ ions are released either by H2O or by H2CO3 present in the atmosphere(this could be considered as the cathode position).

$$\begin{array}{l}H_2 O\rightleftharpoons H^+ + OH^-\end{array}$$

$$\begin{array}{l}H_2CO_3\rightleftharpoons 2H^+ + CO_3^2\end{array}$$

The Hydrogen thus formed by the reaction of H+ and electrons react with oxygen to form H2O.

Anode reaction

2Fe(s) → 2Fe2+ + 4e;

$$\begin{array}{l}E _{_{F{{e}^{2+}}/Fe}}^{0}= – 0.44\ V\end{array}$$

Cathode reaction

$$\begin{array}{l}{{O}_{2(g)\,}}+4{{H}^{+}}_{(aq)}+4{{e}^{-}}\overset {2} \longrightarrow {{H}_{^{2}}}{{O}_{(l)}}{{E}^{o}}_{^{{{H}^{+}}}/{{O}_{2}}/{{H}_{2}}/O\,\,\,}=1.23V\end{array}$$

Overall reaction

2Fe(s) + O2(g) + 4H+(aq) → 2Fe2+(aq) + 2H2O(l)Eocell = 1.67V

The Fe2+ ions formed at the anode react with oxygen in the atmosphere, thereby getting oxidised to Fe3+ thereby forming Fe2O3 which comes out in the hydrated form as Fe2O3.xH2O

Fe2+ + 3O2 → 2Fe2O3

Fe2O3 + xH2O → Fe2O3. xH2O (rust)

(Video) Corrosion - definition, types and prevention

Also Read: Rusting of Iron and Prevention

Other examples include,

• Corrosion of Zinc when it reacts with oxygen and HCl to form white coloured ZnCl2.
• Corrosion of Tin to form black coloured Na2[Sn(OH)2].

### Effects

Corrosion can have a varying degree of effect on a lot of things. As such, it mainly causes waste of natural resources. Additionally, it can further causehazardous situations such as building structures becoming weak and unstable, accidents caused by corroded parts as well as other unwanted failures such as cracked pipelines, bridge collapsing, transport vehicle crashes or other catastrophes. It is therefore important to check and prevent corrosion at all costs.

## Prevention of Corrosion

Preventing corrosion is of utmost importance in order to avoid huge losses. The majority of the structures that we see and use are made out of metals. This includes bridges, automobiles, machinery, household goods like window grills, doors, railway lines, etc. While this is a concerning issue, several treatments are used to slow or prevent corrosion damage to metallic objects. This is especially done to those materials that are frequently exposed to the weather, saltwater, acids, or other hostile environments.Some of the popular methods to prevent corrosion include;

• Electroplating
• Galvanization
• Anodization
• Passivation
• Biofilm Coatings
• Anti-Corrosion Protective Coatings
• Painting and Greasing
• Use of Corrosion Inhibitor ordrying agents
• Periodic cleaning of metal surface

Read in Detail Here:How Can Corrosion Be Prevented?

## Frequently Asked Questions on Corrosion

### What is corrosion?

Corrosion is a natural phenomenon of conversion of metal into a more stable chemical oxide.

### Do all metals corrode?

No, all metals do not corrode. The metals which are higher in the reactivity series of metals corrode easily as their oxidation potential is high. For example, iron.

### What affects corrosion?

Metals on exposure to air or moisture (salt water) increase corrosion.

### What is the effect of temperature on corrosion?

Corrosion increases with an increase in temperature.

### What is meant by high-temperature corrosion?

Corrosion of metals due to heating is called high-temperature corrosion.

## FAQs

### What is corrosion and types of corrosion? ›

Corrosion is the gradual deterioration of metals caused by the action of air, moisture, or a chemical reaction (such as an acid) on their surface. Rusting of iron, or the forming of a brown flaky material on iron objects when exposed to moist air, is the most common example of metal corrosion.

What is corrosion simple answer? ›

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. This article is one of a series of TWI frequently asked questions (FAQs).

What is corrosion and its effects? ›

Corrosion is the process of decay on a material caused by a chemical reaction with its environment. Corrosion of metal occurs when an exposed surface comes in contact with a gas or liquid, and the process is accelerated by exposure to warm temperature, acids, and salts.

What exactly is corrosion? ›

Corrosion is a natural process that converts a refined metal into a more chemically stable oxide. It is the gradual deterioration of materials (usually a metal) by chemical or electrochemical reaction with their environment.

What happens during corrosion? ›

General corrosion occurs when most or all of the atoms on the same metal surface are oxidized, damaging the entire surface. Most metals are easily oxidized: they tend to lose electrons to oxygen (and other substances) in the air or in water. As oxygen is reduced (gains electrons), it forms an oxide with the metal.

What is corrosion give two examples? ›

Throughout the corrosion process the surface of the metal gets acted upon by oxygen and moisture present within air and gets converted to the form of oxide. Two examples of corrosion are: Silver utensils tarnishing. Aluminium corrosion.

How do you control corrosion? ›

The rusting of iron can be prevented by greasing, painting, galvanizing, anodizing, or oiling the surface. These methods can be classified into the following categories: Galvanization: Galvanized metal is coated with a thin layer of zinc to protect it against corrosion.

What are the three effects of corrosion? ›

• Lose of efficiency.
• Contamination of product.
• Damage of metallic equipments.
• Inability to use metallic materials.
• Lose of valuable materials such as blockage of pipes, mechanical damage of underground water pipes.
• Accidents due to mechanical lose of metallic bridges, cars, aircrafts etc.

What are 4 factors that affect corrosion? ›

There are several factors influencing the rate of corrosion including diffusion, temperature, conductivity, type of ions, pH value and electrochemical potential.

What are the 3 factors that affect corrosion? ›

Factors affecting the rate of corrosion:
• Reactive metals: In highly reactive metals, the rate of corrosion is very higher.
• Temperature: Due to the increase in temperature, the rate of corrosion also increases.
• Presence of impurities:

### What are the basic types of corrosion? ›

Forms of corrosion
• Uniform corrosion. Uniform or general corrosion are defined as a type of corrosion attack that is more or less distributed over the entire exposed surface of a metal. ...
• Galvanic corrosion. ...
• Concentration cells. ...
• Crevice corrosion. ...
• Pitting corrosion. ...
• Selective corrosion. ...
• Erosion corrosion. ...
• Cavitation corrosion.
Mar 4, 2020

How many different types of corrosion are there? ›

Following are the 9 different types of corrosions that commonly occur in metals.

What is the most common method to prevent corrosion? ›

One of the easiest and cheapest ways to prevent corrosion is to use barrier coatings like paint, plastic, or powder. Powders, including epoxy, nylon, and urethane, adhere to the metal surface to create a thin film. Plastic and waxes are often sprayed onto metal surfaces.

What is the importance of prevention of corrosion? ›

The prevention of corrosion is important because the metal loses its purity due to which it breaks its original state and the maintenance charge is too high, going above the cost of metal.

What is the importance of preventing corrosion? ›

Getting corrosion prevention services provide a lot of benefits other than extending the longevity of your equipment. Some of the advantages of getting quality corrosion management are: Reduced repair costs. Corrosion prevention can extend the life of protected equipment by 250%.

What are the main two types of corrosion? ›

Broadly speaking, corrosion can be separated into two distinct types: generalized and localized.

What is the main cause of corrosion? ›

Causes of Corrosion

Metals begin to corrode when it reacts with other substances such as oxygen, hydrogen, an electric current, or even bacterias or dirt. Corrosion can also take place when metals such as steel are occupied under so much stress compelling materials to crack.

What is corrosion in a sentence? ›

Zinc is used to protect other metals from corrosion. Rust or ferric oxide is a product of corrosion.

What are the 11 factors that can affect corrosion? ›

What are factors affecting rate of corrosion ?
• Physical state.
• Purity of metal.
• Over voltage.
• Nature of surface film.
• Relative areas of the anodic and cathodic parts:
• Position in galvanic series:
• Passive character of metal:
• Solubility of corrosion products:

What is corrosion answer 10? ›

Corrosion: Corrosion is the process of slowly eating up metals by gas and water vapours present in the atmosphere due to the formation of certain compounds like oxide, sulphides, carbonate, etc. Rust: Corrosion of iron is known as rusting.

### What is done to prevent corrosion of metals? ›

Coating the metal with paint or enamel prevents the metal from exposure to oxygen, thus preventing corrosion. Galvanizing, according to the American Galvanizers Association, is the process by which a metal, like iron, is coated with another metal, such as molten zinc.

What are harmful effects? ›

Something that is harmful has a bad effect on something else, especially on a person's health. Collins COBUILD Advanced Learner's Dictionary.

What are the 3 corrosion protection methods? ›

Three modes of corrosion protection
• Barrier coatings. Barrier coatings aim to prohibit water, oxygen and other chemicals from making contact with the substrate. ...
• Inhibitive coatings. ...
• Sacrificial coatings. ...
• Let's talk.

How many types of corrosion are there? ›

There are many different types of corrosion that are visible to the naked eye: uniform corrosion, pitting, crevice corrosion, filiform corrosion, galvanic corrosion, environmental cracking, and fretting corrosion, to name a few. Let's review how these types of corrosion occur, and how they can damage carbon steel.

How do you identify corrosion? ›

Common NDT methods used to detect corrosion include ultrasonic testing, radiographic testing, and magnetic flux leakage. Risk-based inspection and fitness-for-service assessments are additional methodologies and processes that can complement a monitoring program.

How do you prevent corrosion? ›

The rusting of iron can be prevented by greasing, painting, galvanizing, anodizing, or oiling the surface. These methods can be classified into the following categories: Galvanization: Galvanized metal is coated with a thin layer of zinc to protect it against corrosion.

How many ways can you prevent metal corrosion? ›

Maintenance. Protective coatings, environmental control, and cathodic protection are effective ways of preventing corrosion in metal parts.

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