Induction Heating

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  1. 218 – High-Frequency Induction Hardening Analysis Accounting for Deformation

    In this example, using the JMAG magnetic field - thermal stress coupled analysis function, analysis is performed evaluating gear deformation from induction heat hardening.

  2. Electromagnetic Field – Thermal Stress Coupled Analysis and Experiment Verification in High Frequency Induction Hardening

    Yohei Awata, Denki Kogyo Co.,Ltd.

  3. 220 – Analysis of the High-Frequency Induction Hardening and Cooling of a Gear

    In this example, deals with induction heating and cooling analysis. An example is presented where the cooling rate for a gear differs depending on the cooling conditions.

  4. 233 – Optimization Design for Induction Heating Coils

    In this example, the design of a coil used for the high-frequency induction hardening of gears is carried out using an optimization function.

  5. 208 – High Frequency Induction Hardening Analysis Accounting for Deformation (Abaqus Link)

    OverviewSince gears are products that demand mechanical intensity, high frequency induction hardening is run for surface heat treatment. Since induction hardening can rapidly heat…

  6. 186 – Gear Induction Hardening Analysis Using Two Frequencies

    OverviewGears are created in such a way that the surfaces of their teeth are hard in order to resist the wear and tear that occurs when they come into contact with the teeth of ot…

  7. 183 – Agitation Force Analysis of an Induction Furnace

    This analysis will evaluate the size of Lorentz force required to agitate and where this is generated.

  8. 172 – High-Frequency Induction Heating Analysis of a Test Piece (Rotational Induction Hardening)

    OverviewMachine parts like shafts and gears are made to be resistant to wear and tear. This is accomplished by giving them a certain degree of flexibility by maintaining their int…

  9. Investigations in Coil Design for Induction Heating Using JMAG and the Optimization Tool HEEDS

    Toshiaki Matsumura, AW ENGINEERING CO.,LTD.

  10. Design Exploration of Heating Coil Shape by Cooperation of JMAG and HEEDS

    Hiroshi Yuki, NTN corporation

  11. Shape Optimization of Induction Heating Coil by JMAG – Optimus Cooperation

    Ayaka Nakata, KOYO THERMO SYSTEMS CO.,LTD.

  12. Introduction and Application of JMAG on Induction Heating

    Tomohiro Adachi, DAI-ICHI KIDEN CO., LTD.

  13. Development and Experimental Verification of Simulation Code on Induction Heat Treatment Process

    Ju,Dong-Ying, Institute for Advanced Sciences, Saitama Institute of Technology

  14. Feedback control assisted IH analysis

    Hiroshi Yuki, Advanced technology R&D center, NTN Corporation

  15. Metal Induction Heating Analysis with Two-Way Coupling of JMAG and STAR-CCM+

    Masaki Takeuchi, Production&Procurement Group, Production Technology Center, Equipment Technology Dept., Equipment Design Section, Fuji Electric Co.,Ltd.

  16. Analytical Predictions for Residual Stress in Crankshaft Subjected to Induction Hardening

    Hideaki Ueda, Reliability Group, Research Center, Research & Development Center, YANMAR CO., LTD.

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