ID: 337
/ PC-M2: 1
Topics: Mathematical Modelling and Formulations, Numerical Techniques, Material ModellingKeywords: Vector magnetic characteristic, Hysteresisu Loop
Vector Magnetic Hysteresis Characteristics
Masato Enokizono1, Daisuke Wakabayashi2
1Vector Magnetic Characteristic Technical Laboratory, Japan; 2Nippon Bunri University
ID: 148
/ PC-M2: 2
Topics: Material ModellingKeywords: Energy-based vector hysteresis, rotational magnetization, rotational losses, hysteresis measurement
Identification of Parameters to correctly adapt Energy-Based Hysteresis Models regarding Rotational Losses
Lukas Daniel Domenig, Klaus Roppert, Andreas Gschwentner, Alexander Sauseng, Manfred Kaltenbacher
Institute of Fundamentals and Theory in Electrical Engineering, Graz University of Technology, Austria
ID: 171
/ PC-M2: 3
Topics: Material Modelling, Novel Computational Methods for Machines and DevicesKeywords: Finite Element Method, Hysteresis losses, Magneto-mechanical coupling, Electrical Machines
Electrical Iron Sheets Hysteresis Losses Under Mechanical Stresses
Rodrigo A. Miranda1, Indiara P. C. Silva1, Nelson Sadowski1, Nelson J. Batistela1, Laurent D. Bernard1, João P. A. Bastos1,2
1GRUCAD/EEL/CTC/UFSC, Brazil; 2PPGESE/UFSC, Brazil
ID: 147
/ PC-M2: 4
Topics: Material ModellingKeywords: Magnetic anisotropy, non oriented electrical steel, grain oriented electrical steel, first magnetization curves modeling, cumulative distribution functions
Sensitivity study of a cumulative distribution functions-based model allowing to account for the anisotropy in electrical steel
Guilherme Tolentino Costa Ayres1, Mathieu Rossi1, Olivier Ninet1, Guillaume Parent1, Jean Vianei Leite2, Jonathan Blaszkowski3
1Univ. Artois, UR 4025, Laboratoire Systèmes Électrotechniques et Environnement (LSEE), F-62400 Béthune, France; 2Universidade Federal de Santa Catarina, GRUCAD, Santa Catarina, Florianòpolis, Brazil; 3Thyssenkrupp Electrical Steel, F-62330 Isbergues, France
ID: 568
/ PC-M2: 5
Topics: Material ModellingKeywords: Core loss, Hysteresis model, DC bias, Magnetic fields
(This presentation was moved to PO2)
Conference Organizer
Compumag2023 secretariat
ID: 344
/ PC-M2: 6
Topics: Optimization and Design, Electromagnetic Sensors, Sensing and Metrology, Material ModellingKeywords: Finite elements simulation, local defect, magnetic laminations stack, magnetic sensor, predictive maintenance
Noninvasive internal magnetic core characterization, experimentation and simulation
Sorelle Hilary Nguedjang Kouakeuo1, Aurélie Solignac2, Ruth Vasquez Sabariago3, Laurent Morel4, Marie-Ange Raulet4, Borel Toutsop1, Pierre Tsafack1, Benjamin Ducharne5
1Faculty of Engineering and Technology, University of Buea, Buea, Cameroun; 2SPEC, CEA, CNRS, Université Paris-Saclay, CEA Saclay, 91191 Gif-sur-Yvette, France; 3Dept. of Electrical Engineering (ESAT), KU Leuven, Campus EnergyVille, 3600 Genk, Belgium; 4Laboratoire Ampère, Université de Lyon, 69621 Villeurbanne, France; 5ELyTMaX IRL3757, CNRS, Univ Lyon, INSA Lyon, Centrale Lyon, Université Claude Bernard Lyon 1, Tohoku University
ID: 306
/ PC-M2: 7
Topics: Static and Quasi-Static Fields, Material ModellingKeywords: Core fault, eddy current losses, finite element methods, magnetic cores
Numerical and Experimental Characterization of Laminated Magnetic Cores with Inter-Laminar Faults
Ruth V. Sabariego1, Hamed Hamzehbahmani2, Benjamin Ducharne3
1KU Leuven, Belgium; 2Durham University, UK; 3INSA Lyon, France; Tohoku University, Japan
ID: 404
/ PC-M2: 8
Topics: Material Modelling, Multi-Physics and Coupled ProblemsKeywords: power transformers, magneto-machenical coupling charecteristics, magnetostrictive force, magnetostrictive effect
Research on Transformer Core Vibration Considering Magneto-Mechanical Coupling Characteristics
Fan YANG, Yisha XIA, Pengbo WANG, Hui JIANG, Hanxue HAO, Liuyang WANG, Lianqiang ZHANG
Chongqing University, China, People's Republic of China
ID: 380
/ PC-M2: 9
Topics: Material ModellingKeywords: Finite Element Analysis, High-Frequency Magnetic Fields, Magnetic Permeability, Snoek’s limit
Numerical Experiments on Magnetic Permeability in 3-D Finite Element Analysis of High-Frequency Electromagnetic Field
Tadashi Yamaguchi, Yohei Omori
Gifu University, Japan
ID: 112
/ PC-M2: 10
Topics: Material ModellingKeywords: Electrical machines, eddy-current power loss, integrated thermal management, heat pipes, finite element analysis, motorette hardware evaluation
Analysis of Power Loss in Heat Pipes for Integrated Thermal Management of Electrical Machines
Rafal Wrobel
Newcastle University, United Kingdom
ID: 493
/ PC-M2: 11
Topics: Material ModellingKeywords: Magnetic hysteresis, soft magnetic materials, surface fitting, splines (mathematics)
Constrained Spline-Based Everett Map for Static Hysteresis Modeling
Bram Daniels1, Reza Zeinali1, Timo Tamis Overboom2, Mitrofan Curti1, Elena Andreevna Lomonova1
1Eindhoven University of Technology, Netherlands, The; 2Royal SMIT Transformers (SGB-SMIT Group)
ID: 343
/ PC-M2: 12
Topics: Electromagnetic Sensors, Sensing and Metrology, Material Modelling, Multi-Physics and Coupled ProblemsKeywords: Nondestructive testing, skin depth, magnetic hysteresis
Magnetic incremental permeability: simulation predictions based on the combination between the Jiles-Atherton and the Deed & Dodds models.
Benjamin Ducharne1,2, Shurui Zhang2,3, Yves Armand Tene Deffo4, Gael Sebald1, Sho Takeda3, Tetsuya Uchimoto3
1ELyTMaX IRL3757, CNRS, Univ Lyon, INSA Lyon, Centrale Lyon, Université Claude Bernard Lyon 1, Tohoku University.; 2Univ. Lyon, INSA Lyon, LGEF EA682, F-69621, Villeurbanne, France.; 3Tohoku University, Institute of Fluid Science IFS, Sendai, 980-8577, Japan.; 4Faculty of Engineering and Technology, University of Buea, Buea P.O. Box 63, Cameroon.
|
