Power factors of both the transformers will be same.
Iron core power transformer is laminated to reduce.
The core is laminated to reduce these to a minimum as they interfere with the efficient transfer of energy from the primary coil to the secondary one.
The eddy currents cause energy to be lost from the transformer as they heat up the core meaning that electrical energy is being wasted as unwanted heat energy.
The core of the transformers needs to be laminated to reduce the eddy current that has arisen from the induced voltages through the core reducing the heat loss of the whole core which is why the core of the transformers is laminated to restrict the eddy currents flowing through it.
Therefore solid iron cores are not used in transformers or inductors they are replaced by laminated or powdered iron cores or nonconductive cores like ferrite.
Provide support to windings.
The purpose of providing an iron core in a transformer is to.
Iron core is thin laminated in transformer to avoid the loss of eddy current.
Eddy current losses are proportional to the frequency and magnitude of the current in the core of the transformer.
The core is made from e and i lamination.
Laminated transformer core the core of a laminated transformer consists of a stack of punched sheet alloy made of iron and nickel the laminations.
Why iron core is thin laminated in transformer the iron core transformer has higher permeability thus it is applied in transformer in place of air core in modern transformer.
The current flowing through the resistance of the metal heats it by joule heating causing significant power losses.
Eddy current is induced in core and circulates normal to the width of the core causing heat.
The percentage of nickel is adjusted to give a reduced energy loss when the core is magnetised by the magnetic field produced when the primary winding is energised.
For example dropping a transformer on one of its edges on concrete could short the laminates.
Laminating the iron core eddy current losses within a transformer core can not be eliminated completely but they can be greatly reduced and controlled by reducing the thickness of the steel core.