ID: 342
/ PB-M3: 1
Topics: Mathematical Modelling and Formulations, Material ModellingKeywords: Harmonics, Hysteresis, Magnetic materials, Magnetic losses
Comparison of Dynamic Loss Inclusion under Asymmetrical Minor Loops using Lavers Formula and Inverse Jiles-Atherton Model
Greeshma Mohan Unniachanparambil, Shrikrishna V Kulkarni
Department of Electrical Engineering, Indian Institute of Technology Bombay, India
ID: 298
/ PB-M3: 2
Topics: Material ModellingKeywords: Magneto-elasticity ; Magneto-plasticity ; Micro-mechanical modeling ; Dislocation density ; Internal stresses.
A model for the magneto-elasto-plastic behavior of electrical steels
Laurent Daniel1,2, Mathieu Domenjoud1,2
1Université Paris-Saclay, CentraleSupélec, CNRS, Laboratoire de Génie Electrique et Electronique de Paris, 91192, Gif-sur-Yvette, France; 2Sorbonne Université, CNRS, Laboratoire de Génie Electrique et Electronique de Paris, 75252, Paris, France
ID: 217
/ PB-M3: 3
Topics: Material ModellingKeywords: Magnetomechanical effects, Magnetic domain energy, crystal orientation, magneto-elastic coupling
Modeling and Analysis of Stress Sensitivity and Changing Trend of Magnetization Characteristics of GO Silicon Steel Cut Along Different Angles to the Rolling Direction
Yuheng Fu, Lin Li
North China Electric Power University, China, People's Republic of China
ID: 417
/ PB-M3: 4
Topics: Material Modelling, Multi-Scale Modelling and HomogenizationKeywords: Phenomena of interface, Stratified composite material, Homogenization model, Conductivity tensor
Highlighting and Modeling of Inter-ply Percolation Phenomenon in Stratified Composite
Banda Kane, Guillaume Wasselynck, Didier Trichet, Gérard Berthiau
Nantes University, Institute for Research in Electrical Energy of Nantes-Atlantique, IREENA, UR 4642
ID: 540
/ PB-M3: 5
Topics: Material Modelling, Multi-Physics and Coupled ProblemsKeywords: Curie temperature, Ferromagnetism, Finite Element method
Modeling of low magnetic Curie point ferromagnetic material
Hakim Oueslati1, Didier Trichet1, Guillaume Wasselynck1, Simon Morville2
1Nantes University, Institut de Recherche en Energie Electrique de Nantes Atlantique, 37, Bd de l’Université, Saint-Nazaire 44612, France; 2Institut de Recherche Technologique Jules Verne, 1 Mail des 20 000 lieux, 44340 Bouguenais, France
ID: 139
/ PB-M3: 6
Topics: Material ModellingKeywords: finite element analysis, Gaussian process, hysteresis, machine learning, play model
Investigation on Interpolation of Hysteresis Curves by Machine Learning for Highly Accurate Play Models
Akira Ahagon
JSOL, Japan
ID: 416
/ PB-M3: 7
Topics: Numerical Techniques, Material ModellingKeywords: Conductivity Measurement, Composite Materials, Inverse Problem, Finite element analysis.
An identification approach of anisotropic electrical conductivity distribution of a unidirectional carbon fiber composite ply
Hamza Aissaoui1,3, Samir Bensaid1,3, Didier Trichet2, Guillaume Wasselynck2, Hamza Houassine3
1Laboratoire des Matériaux et du Développement Durable (LM2D), Université de Bouira, Bouira 10000, Algérie; 2IREENA – Institut de Recherche en Energie Electrique de Nantes Atlantique, Université de Nantes, Saint-Nazaire 44600, France; 3Faculté des Sciences et Sciences Appliquées, Université de Bouira, Bouira 10000, Algérie
ID: 346
/ PB-M3: 8
Topics: Material ModellingKeywords: Magnetic hysteresis, Magnetic losses, Magnetic materials
Dynamic Modeling of Magnetic Core Materials for Sub-MHz Range using Cauer Circuit
Ichiro Okuda, Tetsuji Matsuo
Kyoto university, Japan
ID: 127
/ PB-M3: 9
Topics: Material Modelling, Multi-Physics and Coupled Problems, Multi-Scale Modelling and HomogenizationKeywords: Homogenization, Materials properties, Constitutive laws, Electro-mechanical coupling, Multiscale model, Ferroelectric materials, Hysteresis effect.
Introduction of Energy Based Hysteresis in a Ferroelectric Multiscale Model
Zhaochen Li1,2, Romain Corcolle1
1NYU Shanghai, China; 2NYU, USA
ID: 552
/ PB-M3: 10
Topics: Material ModellingKeywords: Excess Loss, Magnetic Flux Superposition, Electromagnetic Finite Element Analysis, Modeling
Modeling of the Excess Loss Calculation with DC Magnetic Flux Superposition
Kazuki SEMBA, Hiroyuki SANO, Tomohisa SATO, Takashi YAMADA
JSOL Corporation, Japan
ID: 203
/ PB-M3: 11
Topics: Material ModellingKeywords: magnetic domain wall, micromagnetics, spintronics, Magnetic multilayers
The comparison between analytical calculation and numerical modeling for stable magnetic skyrmion states
Jaehun Cho1, June-Seo Kim1, Chun-Yeol You2
1Division of Nanotechnology, DGIST, Korea, Republic of (South Korea); 2Department of Physics and Chemistry, DGIST, Korea, Republic of (South Korea)
ID: 151
/ PB-M3: 12
Topics: Material ModellingKeywords: Magnetic material, hysteresis model, anisotropy, rotational losses
Anisotropic Jiles Atherton model of hysteresis based on an analysis of a cubic single crystal
Floran Martin1, Ruiying Chen1,2, Julien Taurines1, Anouar Belahcen1
1Aalto University, Finland; 2State key laboratory of reliability and intelligence of electrical equipment, China
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