Academic Field

Examination about the analysis method of demagnetization of a permanent magnet

Mitsutoshi Natsumeda, Sumitomo Special Metals CO.,LTD

• Physical Phenomena: Magnetic Field and Material
• Technical Themes: Material Modeling / Loss Analysis

Magnetic calculation considering hysteresiswith Hysteron model using JMAG

Yasuo Fujioka, TOYOTA MOTOR CORPORATION

• Physical Phenomena: Magnetic Field and Material
• Technical Themes: Material Modeling / Loss Analysis

Loss Analysis of Rotating Machines Considering Harmonic Electromagnetic Fields in Stator and Rotor

Katsumi Yamazaki, Chiba Institute of Technology

• Applications: Induction Motor, IPM Motor, Motor, and SPM Motor
• Physical Phenomena: Magnetic Field
• Technical Themes: Material Modeling / Loss Analysis

A Method for Nonlinear Magnetic Field Analysis Taking Account of the 2-D Magnetization Property

Koji Fujiwara, Okayama University

• Physical Phenomena: Magnetic Field and Material
• Technical Themes: Material Modeling / Loss Analysis

Simulation of Electromagnetic Phenomena in the Superconductor

Hiroyuki Ohsaki, The University of Tokyo

• Applications: Superconductivity
• Physical Phenomena: Magnetic Field

Numerical Analysis of AC Loss in High-Tc Superconducting Cables

Shoichi Honjo, Tokyo Electric Power Company

• Applications: Cable and Superconductivity
• Physical Phenomena: Magnetic Field
• Technical Themes: Material Modeling / Loss Analysis

Numerical Calculation of AC Loss of Superconductor including Magnetic Field Dependence of Critical Current

Edmund S.Otabe, Kyushu Institute of Technology

• Applications: Superconductivity
• Physical Phenomena: Magnetic Field
• Technical Themes: Material Modeling / Loss Analysis

Cogging Torque Analysis of Thin-Shaped Permanent Motor With Pole-Orientations Taking into Account of Material Properties

Takushi Fujioka,Youichi Tanabe, FUJITSU GENERAL LIMITED

• Physical Phenomena: Magnetic Field and Material

Recent Analysis Method of Motors Using 3-D Finite Element Method

Yoshihiro kawase, Gifu University

• Applications: Axial Gap Type Motor, Generator, Induction Motor, IPM Motor, Motor, and Stepper Motor
• Physical Phenomena: Magnetic Field

New Practical Analysis of Actuators by 3-D Finite Element Method

Yoshihiro Kawase, Gifu University

• Applications: Induction Motor, IPM Motor, Linear Solenoid / Linear Actuator, Motor, and Stepper Motor

Fast multigrid solver for high frequency electromagnetic analysis

David Dibben, The Japan Research Institute,Limited.

Numerical results of receiving characteristics of a large crane in madium frequency

Tomita Hajime, National Institute of Industrial Safety

• Physical Phenomena: Electric Field

Analysis of Electromagnetic waves using the FDTD Method

Tatsuya Kashiwa, Kitami Institute of Technology

• Physical Phenomena: Electric Field

How to handle a permanent magnet in the magnetic field analysis

Sumitomo Special Metals CO.,LTD

• Physical Phenomena: Magnetic Field and Material

Latest 3-dimensional Magnetic Field Analysis Utilizing Motion

Yoshihiro Kawase, Gifu University

• Applications: IPM Motor, Linear Solenoid / Linear Actuator, Motor, SPM Motor, and Stepper Motor
• Physical Phenomena: Magnetic Field

Coating Simulation of Ion Plating

Koichiro Maki, Sumitomo Metal Minimg Co.Ltd.