Stress-Dependent Magnetic Equivalent Circuit for Modeling Welding Effects in Electrical Steel Laminations

Stress-Dependent Magnetic Equivalent Circuit for Modeling Welding Effects in Electrical Steel Laminations

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Welding has a severe impact on the efficiency of electrical machines.The heat added during the welding process affects the microstructure of the material and causes residual stress.This results in local degradation of the magnetic permeability and facilitates additional iron losses in the machine core.

With the purpose of modeling and simulating welding effects in electric machines, this paper proposes a stress-dependent magnetic equivalent circuit (MEC) model for welded non-grain-oriented electrical steel laminations.A modified discount greenery iron loss model is proposed to accommodate these welding effects.Furthermore, the proposed MEC model eeboo coupons is applied to a M270-35A stator core as a case study.

It was demonstrated that the core losses increase by 25% when four welding joints are applied.With a limited number of magnetic measurements on a welded and unwelded core, the model can be fully parametrized.Finally, the model was successfully validated on a core with eight welding seams at 100 Hz.

The proposed model can be integrated into the design of electric machines to consider the welding effects.