HT

Steady/Transient Thermal (3D)

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  1. Development of the self fluxing alloy fusing process with the control system using the simulation

    Tomoji Osada, NIPPON THERMONICS Corporation.

  2. Effect of magnetic property on the accuracy of induction heating analysis

    Hiroshi Yuki, NTN Corporation

  3. 146 – Analysis of Stray Loss in a Transformer

    This Application Note explains how to obtain losses in a transformer tank and use them to evaluate the temperature distribution in each part.

  4. 133 – Thermal Analysis of a Three-phase Transformer

    This Application Note presents an example of how to confirm a temperature distribution using the iron and copper losses of a three-phase transformer as heat sources.

  5. 130 – Thermal Conductivity Analysis of Basic Geometry

    In this Application Note, the analysis accuracy is investigated by comparing the temperatures obtained through analysis in each part with theoretical values.

  6. 127 – Resistance Heating Analysis of Steel

    This Application Note presents how to obtain the temperature distribution, temperature variations, and heat flux distribution in a body heated by ohmic heating.

  7. 123 – Thermal Analysis of a Choke Coil

    This Application Note shows the use of a thermal analysis to obtain the temperature distribution using the iron losses and copper losses in the choke coil as the heat source.

  8. 44 – Resistance Heating Analysis of a Steel Sheet

    This Application Note presents how to obtain the calculate current density distribution, Joule loss distribution and temperature distribution of steel sheet.

  9. 118 – Thermal Analysis of a Bus Bar

    This Application Note presents how to obtain the temperature distribution in a bus bar or the like with changes in the power supply frequency.

  10. 100 – Surface Heating Analysis of a Steel Plate

    This Application Note presents how to confirm the uniformity of the surface temperature distribution in the steel plate facing the coil and check for an eddy current loss density …

  11. 48 – High-Frequency Induction Heating Analysis of a Printer Roller

    This Application Note confirms the non-uniformity in temperature distribution produced by an assumed coil geometry, as well as the temperature elevation in each part caused by rot…

  12. 47 – High-Frequency Induction Heating Analysis of a Crankshaft

    This Application Note shows an example of an evaluation performed by creating a numerical analysis model, analyzing the elevated temperature process, and seeing whether or not the…

  13. 49 – High-Frequency Induction Heating Analysis of a Steel Sheet

    This Application Note explains how to create a numerical analysis model when obtaining the optimum coil geometry, current conditions (power supply frequency, current value), and m…

  14. 50 – High-Frequency Induction Heating Analysis of a Steel Wire (Translational Induction Hardening)

    This Application Note explains how to create a numerical analysis model when obtaining the optimum coil geometry, current conditions (power supply frequency, current value), and m…

  15. 85 – High-Frequency Induction Heating Analysis of a Constant Velocity Joint

    This Application Note shows how to run an analysis of the elevated temperature process by using the geometry of a coil to evaluate whether or not the target temperature conditions…

  16. 51 – High-Frequency Induction Heating Analysis of a Gear

    This Application Note shows how to create a numerical analysis model when obtaining the optimum coil geometry and current conditions (power supply frequency and current value), an…

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