S
Simon Steentjes
Researcher at RWTH Aachen University
Publications - 96
Citations - 1371
Simon Steentjes is an academic researcher from RWTH Aachen University. The author has contributed to research in topics: Electrical steel & Magnetization. The author has an hindex of 17, co-authored 95 publications receiving 1092 citations. Previous affiliations of Simon Steentjes include Audi & Hilti.
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Advanced Iron-Loss Estimation for Nonlinear Material Behavior
TL;DR: In this article, a modified loss equation with semi-physically based parameters is presented to explain the non-linear loss component, which is not more than interpolated measurements and is valid for linear material behavior at low frequencies and low magnetic flux densities, or grounded on a pure mathematical description of the material behavior.
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Influence of shear cutting parameters on the electromagnetic properties of non-oriented electrical steel sheets
Hannes Alois Weiss,Nora Leuning,Simon Steentjes,Kay Hameyer,T. Andorfer,S. Jenner,Wolfram Volk +6 more
TL;DR: In this paper, the residual stresses induced by punching with different shear cutting parameters, taking a qualitative approach using finite element analysis, were analyzed using a single sheet tester, and the correlation between residual stresses, micro hardness measurements, cutting surface parameters and magnetic properties was studied.
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Iron-Loss Model With Consideration of Minor Loops Applied to FE-Simulations of Electrical Machines
TL;DR: In this paper, the IEM-formula is extended in order to include the influence of higher harmonics as well as minor loops, and a detailed study of minor loop loss behavior is presented.
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Effect of elastic and plastic tensile mechanical loading on the magnetic properties of NGO electrical steel
TL;DR: In this paper, the effect of tensile stresses and plastic deformations on the magnetic properties of a 2.9-wt% Si electrical steel was studied and the influence of the direction of applied mechanical stress with respect to the rolling direction was evaluated.
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Continuous Local Material Model for Cut Edge Effects in Soft Magnetic Materials
TL;DR: In this paper, a continuous material model for an efficient numerical model of the local magnetization is presented, which is independent of the discretization and converges in the case of coarse meshes to the sliced model.