Do you know the difference between conductor and insulator? It’s not just a question of what you can wear in cold weather. Electrical circuits need to be insulated, or they will short out and stop working. If a wire is running inside an electrical device, like a lamp, it must be insulated so that any electrical current is contained.
The same is true for power lines outside your home; they must be insulated with rubber or plastic so that the power flows from your power plant to your house safely.
But if something isn’t conducting electricity well, it might not be an insulator. You can still find yourself with wet clothes if you don’t wear rubber boots when it rains! That’s because water conducts electricity well and doesn’t qualify as an insulator!
So now you know: Let’s dissect the differences between conductors vs insulators.
- 1 What is a conductor?
- 2 What is an insulator?
- 3 Difference between conductors vs insulators
- 4 Example of conductors
- 5 Example of insulators
- 6 Applications of Insulators
- 7 Application of conductors
- 8 Things to know when handling conductors
- 9 Where to buy conductors and insulators?
What is a conductor?
In the field of electricity and electronics, a conductor is a material that allows the flow of an electric current in response to an electric potential difference or voltage across it.
In simple terms, a conductor is an object that allows electrons to pass through it without much resistance.
Electrons are the tiny particles that flow through a conductor.
An example of a conductor is copper wire.
Copper is a metal, and all metals are conductors. Copper is used in electrical wires because it allows electricity to flow through it easily.
Electrons can easily move across the surface of the copper wire and into another object being charged.
This means that if an electric current is applied to one end of the wire, electrons will pass from one end to the other until there are no more electrons to transfer, or until they reach an object that cannot conduct electricity (like a battery).
When this happens, the electrons stop moving and the current stops flowing.
This process happens very quickly in conductors! The speed depends on how well a material conducts electricity. A material that conducts electricity very well is called a good conductor; one that doesn’t conduct well is known as a poor conductor.
A good conductor has lots of free-flowing electrons and allows electrons to move through it easily.
What is an insulator?
Still in the field of electricity and electronics, we can define an insulator as a material that does not conduct electricity.
Insulators are good at blocking the flow of electrons, or in other words, they don’t allow electrons to move freely through them.
Some insulators include rubber, wood and glass, and most plastics are also good insulators.
However, some plastics can be made to be conductors by adding free-flowing electrons (sodium or potassium) to them.
Since they don’t conduct electricity well, insulators are used in electrical circuits as a protective measure.
They prevent current from flowing from one part of a circuit to another part by either blocking the path or diverting the current away from sensitive components like light bulbs or electrical wires.
Difference between conductors vs insulators
From the definition, let’s now have a breakdown of the key differences between conductors and insulators.
-Current conductance: Conductors are materials that allow electric current to flow through with minimal resistance. On the other side insulators do not allow electric current to flow through. They provide maximum resistance to the flow.
-Electric field: Conductors have high electric fields, especially on their surfaces. This is because the electrons in a conductor are free to move about, allowing electric charges to build up on one end of the conductor.
-Heat transfer: When a current flows through a conductor, it creates heat. The heat is caused by the resistance of the material to the flow of electrons and by friction between the electrons moving through it.
On the other hand, insulators do not facilitate transfer of heat from one end of the material to another. This heat effect is also known as thermal conductivity of a material. So, we can say that conductors have a high thermal conductivity.
-Electrical resistivity: Conductivity is the measure of a material’s ability to conduct electric current. It is the inverse of electrical resistivity. Materials with high resistivity have low conductivity, while materials with low resistivity have high conductivity.
-Electrical resistance: The electrical resistance of a material is directly proportional to its resistivity and inversely proportional to its cross-sectional area and length. So, we can say that conductors have a low electrical resistance because of their high cross-sectional area and length. On the other hand, insulators have large electrical resistance because of their small cross sectional area and length.
-Energy storage: Conductors are capable of being used for the storage of energy. They store energy in the form of electrical energy. They may be used in the form of batteries and capacitors. On the other hand, insulators cannot store any electrical energy.
-Magnetic field: Conductors are capable of being used for the storage of energy. They store energy in the form of magnetic field. They may be used in the form of electromagnets, which are devices that generate a magnetic field by using an electric current. On the other hand, insulators cannot store any magnetic energy.
-Electromagnetic wave: Electricity is a form of electromagnetic wave which can travel through conductors. On the other hand, insulators cannot be used for the transmission of electromagnetic waves.
-Electromagnetic radiation: Electricity is a form of electromagnetic wave which can travel through conductors. On the other hand, insulators cannot be used for the transmission of electromagnetic waves.
-Covalent bond: A covalent bond is a strong chemical bond that holds atoms together. The covalent bond in insulators is way stronger than that in conductors. This bond is one of the reasons why insulators cannot allow electrons to flow through them with ease.
-Valence band: The valence band is the region of the atom that is farthest from the nucleus. It contains the highest energy level of an atom. The valence band in insulators is much larger than that in conductors where it is empty.
-Electron affinity: This refers to a property of an element or compound which relates its ability to accept or give up electrons. In conductors, electrons can easily flow through them due to their high electron affinity. In insulators, this property is not as high as that in conductors.
-Electrostatic field: Conductors are able to generate enormous electrostatic fields because they have a higher charge density than that in insulators and metals. In contrast, insulators are unable to generate any electrostatic fields because they have a lower charge density than that in conductors.
Example of conductors
Examples of conductors include:
Example of insulators
Examples of insulators include:
-Silicon dioxide (SiO2)
-Diamond (cubic structure)
Applications of Insulators
Insulators are mainly used for:
Insulators are used in the circuit for the protection of electrical equipment. The insulator is also used as a heating plate for cooking and a cover for electric appliances such as toasters and electric kettles.
The distribution of mechanical force such as in printed circuit boards to provide mechanical support to electrical components.
The insulation of a conductor from heat produced by an external source such as an electric heater or the resistance heating system in electric motors.
Insulation prevents heat loss from being conducted through the insulation to other conductors or other materials or objects that are not insulated, possibly resulting in damage to those materials
Application of conductors
Conductors are mainly used for:
-Facilitating flow of current from the source to the target device
-Distribution of electricity across different locations
-Transmission of electrical signals by electromagnetic means
-Transmission of electrical signals by optical means
Things to know when handling conductors
When handling conductors, it is important to consider these factors:
-Conductors are used in different locations and the form and size of the conductors will vary depending on the application.
-Conductors are used in different environments. The insulation, size, shape and composition of conductors will also vary depending on the environment.
-Conductors are damaged by physical contact, friction or wear. Depending on how they are used, conductors can be damaged by:
-Electrical contact with other conductive materials or objects
-Contact with a moving part such as a shaft or gear or bearings
-Friction between two moving parts
-Contact with other materials (such as water) that may damage the insulation
-Contact with heat produced by an external source such as an electric heater or the resistance heating system in electric motors .
Where to buy conductors and insulators?
Conductors are bought from electrical wholesalers. Wholesale suppliers usually have a stock of different types of conductors and insulators in various sizes. They also have a wide range of other components such as fuses and switches, and accessories such as cable ties and terminations.
You can buy these items directly from the supplier or through a distributor.
In case you are considering buying China, consider contacting ICRFQ. We are a reputable sourcing agent and supplier of electrical components in China.
If you want to find more Electronic Components Distributors, please check out the following articles:
Electronic Components Distributors In the USA
Electronic Components Distributors In UK
Electronic Components Distributors In China
Electronic Components Distributors In India
Electronic Components Distributors In Singapore
Electronic Components Distributors In Malaysia
Electronic Components Distributors In Vietnam
Electronic Components Distributors In South Korea
Electronic Components Distributors In Taiwan
Electronic Components Distributors In Hong Kong
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