Jan Karthaus scite author profile

Jan Karthaus

4Publications

32Citation Statements Received

55Citation Statements Given

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Affiliations

RWTH Aachen University, Westfälische Hochschule

Publications

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Effect of mechanical stress on different iron loss components up to high frequencies and magnetic flux densities

Karthaus

Steentjes

Leuning

et al. 2017

COMPEL

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Purpose The purpose of this paper is to study the variation of the specific iron loss components of electrical steel sheets when applying a tensile mechanical load below the yield strength of the material. The results provide an insight into the iron loss behaviour of the laminated core of electrical machines which are exposed to mechanical stresses of diverse origins. Design/methodology/approach The specific iron losses of electrical steel sheets are measured using a standardised single-sheet tester equipped with a hydraulic pressure cylinder which enables application of a force to the specimen under test. Based on the measured data and a semi-physical description of specific iron losses, the stress-dependency of the iron loss components can be studied. Findings The results show a dependency of iron loss components on the applied mechanical stress. Especially for the non-linear loss component and high frequencies, a large variation is observed, while the excess loss component is not as sensitive to high mechanical stresses. Besides, it is shown that the stress-dependent iron loss prediction approximates the measured specific iron losses in an adequate way. Originality/value New applications such as high-speed traction drives in electric vehicles require a suitable design of the electrical machine. These applications require particular attention to the interaction between mechanical influences and magnetic behaviour of the machine. In this regard, knowledge about the relation between mechanical stress and magnetic properties of soft magnetic material is essential for an exact estimation of the machine’s behaviour.

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Iron loss components dependent on mechanical compressive and tensile stress in non-oriented electrical steel

Karthaus

Elfgen

Leuning

et al. 2019

JAE

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Continuous local material model for the mechanical stress-dependency of magnetic properties in non-oriented electrical steel

Karthaus

Elfgen

Hameyer

2019

COMPEL

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Purpose Magnetic properties of electrical steel are affected by mechanical stress. In electrical machines, influences because of manufacturing and assembling and because of operation cause a mechanical stress distribution inside the steel lamination. The purpose of this study is to analyse the local mechanical stress distribution and its consequences for the magnetic properties which must be considered when designing electrical machines. Design/methodology/approach In this paper, an approach for modelling stress-dependent magnetic material properties such as magnetic flux density using a continuous local material model is presented. Findings The presented model shows a good approximation to measurement results for mechanical tensile stress up to 100 MPa for the studied material. Originality/value The presented model allows a simple determination of model parameters by using stress-dependent magnetic material measurements. The model can also be used to determine a scalar mechanical stress distribution by using a known magnetic flux density distribution.

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Static and cyclic mechanical loads inside the rotor lamination of high-speed PMSM

Karthaus

Hameyer

2017

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Jan Karthaus

Effect of mechanical stress on different iron loss components up to high frequencies and magnetic flux densities

Iron loss components dependent on mechanical compressive and tensile stress in non-oriented electrical steel

Continuous local material model for the mechanical stress-dependency of magnetic properties in non-oriented electrical steel

Static and cyclic mechanical loads inside the rotor lamination of high-speed PMSM

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