Induction Heating

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  1. [JAC280] Topology Optimization of Induction Heating Coil

    In this example, magnetic field and thermal coupled analysis is run, and using topology optimization, searches are performed for a heating coil that maximizes the power factor and…

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Design Exploration / Optimization
  2. TKE Co.,Ltd.

    “Fusion of Simulation Technology and Additive Manufacturing” (JMAG & 3D Printer)

    Masaomi Kawabe, TKE Co.,Ltd.

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Design Exploration / Optimization and Multiphysics

  3. [W-SE-95] Improvement in Generation of Three-Dimensional Skin Mesh

    We have improved the reliability of skin mesh generation for JMAG-Designer in this work, and thus, its details are introduced in this paper.

    • Applications: Bus Bar, Generator, and Induction Heating
    • Physical Phenomena: Magnetic Field
    • Technical Themes: Material Modeling / Loss Analysis

  4. Takao Kogyo Co., Ltd. / TKE Co., Ltd.

    Since its establishment in 1974, Takao Kogyo Co., Ltd. has been manufacturing automotive parts, industrial machinery parts, EV(electric vehicle) parts, and precision machinery par…

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Design Exploration / Optimization

  5. [W-SE-99] High Speed Magnetic Field Analysis with SMP Solver

    The parallel solver is one way to run magnetic field analysis at high speed. JMAG has an SMP-parallel solver that can easily be used with a single click on the computer.

    • Applications: Brush Motor / Universal Motor, Generator, Induction Heating, Induction Motor, IPM Motor, Motor, Stepper Motor, and Transformer / Reactor
    • Physical Phenomena: Magnetic Field
    • Technical Themes: Large-Scale Processing

  6. Improvement of Calculation Speed by AMD CPU and Parallel Calculation in Medium-sized Model

    Go Hagimoto, NSK Ltd.

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Design Exploration / Optimization, Large-Scale Processing, and Multiphysics

  7. Speeding up Induction Heating Analysis by Utilizing the Cloud

    Ayaka Nakata, KOYO THERMO SYSTEMS CO.,LTD.

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Large-Scale Processing and Multiphysics

  8. [JAC233] Induction Heating Coil Optimization

    In this example, an example of using an optimization function to design a coil to use for induction hardening a gear is presented.

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Design Exploration / Optimization and Multiphysics

  9. The Need for Large-Scale Calculations in Induction Heating

    Ayaka Nakata, KOYO THERMO SYSTEMS CO.,LTD.

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Large-Scale Processing and Multiphysics

  10. Study of Optimum IH Coil Design for the Improved Induction Hardening Pattern

    Masaomi Kawabe, TAKAO KOGYO Co.,Ltd.

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Design Exploration / Optimization and Multiphysics

  11. JMAG Analysis of Spot Induction Heating to Design a Soldering Head

    Takeshi Usuda, S-FINX Technologies

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Multiphysics

  12. Dai-ichi Kiden Co.,Ltd.

    Providing customers with all new devices. Better products, faster service. Understanding the process one step at a time. New challenges with JMAG.

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Multiphysics

  13. [W-SE-145] Highly Parallel Solver Performance Evaluation (Induction Heating)

    This document uses as an example an induction heating model to evaluate the performance of the highly parallel solver. As a result, it was found that even in thermal-magnetic fiel…

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Multiphysics

  14. Computer Simulation of Double Hardened Layer Induction Hardening

    Takashi Horino, NETUREN CO., LTD.

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field and Thermal
    • Technical Themes: Multiphysics

  15. Verification of Temperature Distribution and Thermal Strain Level with Induction Heating for Thin Plates

    Hidemasa Wakabayashi, Y-tec Corporation

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field, Structural, and Thermal
    • Technical Themes: Multiphysics

  16. [JAC208] High Frequency Induction Hardening Analysis Accounting for Deformation (Abaqus Link)

    This document introduces evaluates how heating ranges change depending on the deformation amount at high temperatures and deformation during heating, with heat generation analysis…

    • Applications: Induction Heating
    • Physical Phenomena: Magnetic Field, Structural, and Thermal
    • Technical Themes: MBD and Multiphysics

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