Why does an Iron core intensifies the magnetic flux ? (1 Viewer)

jamesfirst

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I read that it's a ferro magnet or something. But it doesn't give a clear explanation.


If Lenz's law was true, wouldn't it produce an eddy current in the iron core which will oppose the motion of the original changing flux, decreasing the number of flux rather than intensifying it ?
 

OmmU

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I think it is because the iron core acts as an electromagnet. Don't quote me though, I just read through the text book a bit and it said things like that but not in a transformer.

You are right about Lenz's law, however the iron core has lamination sheets to reduce the size of eddy currents and therefore reduces the energy lost.
 

jamesfirst

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I'm looking for the "why"

Even if it was laminated, eddy current will still be produced to create a magnetic field which oppose the original flux... why the intensification
 

elbatiolpxeho

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Iron conducts magnetic flux very well, it is used to maximise the transfer of magnetic flux from one coil to the other. If there was no iron core then the magnetic flux would permeate in all directions with only some inducing current in the secondary coil, this is very inefficient and would result in large amounts of energy loss.
 

OmmU

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Feeling a bit backwards? xD

As he said, the core which provides a path for the magnetic lines of flux.

Some further reading for you:

The composition of a transformer core depends on such factors as voltage, current, and frequency. Size limitations and construction costs are also factors to be considered. Commonly used core materials are air, soft iron, and steel. Each of these materials is suitable for particular applications and unsuitable for others. Generally, air-core transformers are used when the voltage source has a high frequency (above 20 kHz). Iron-core transformers are usually used when the source frequency is low (below 20 kHz). A soft-iron-core transformer is very useful where the transformer must be physically small, yet efficient. The iron-core transformer provides better power transfer than does the air-core transformer. A transformer whose core is constructed of laminated sheets of steel dissipates heat readily; thus it provides for the efficient transfer of power. The majority of transformers you will encounter in Navy equipment contain laminated-steel cores. These steel laminations (see figure 5-2) are insulated with a nonconducting material, such as varnish, and then formed into a core. It takes about 50 such laminations to make a core an inch thick. The purpose of the laminations is to reduce certain losses which will be discussed later in this chapter. An important point to remember is that the most efficient transformer core is one that offers the best path for the most lines of flux with the least loss in magnetic and electrical energy.
 

xV1P3R

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Iron conducts magnetic flux very well, it is used to maximise the transfer of magnetic flux from one coil to the other. If there was no iron core then the magnetic flux would permeate in all directions with only some inducing current in the secondary coil, this is very inefficient and would result in large amounts of energy loss.
+1
 

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