Since version 2026, Flux 3D and Flux PEEC are no longer available.
Please use SimLab to create a new 3D project or to import an existing Flux 3D project.
Please use SimLab to create a new PEEC project (not possible to import an existing Flux PEEC project).
/!\ Documentation updates are in progress – some mentions of 3D may still appear.
Flux in SimLab : 3D Tutorials
| Solution | Tutorial | Description | Illustration |
|---|---|---|---|
| 3D Magnetostatic | Linear Actuator | The studied device is obtained from an import, it is a linear actuator with a coil, a mobile and a fixed part. |  |
| 3D Magnetostatic | Rear View Motor |
This tutorial illustrates a 3D model of a small permanent magnet motor, used to align the rear-view mirror of a car. The motor under study consists of four main parts: frame, permanent magnets, rotor and coils. |
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| 3D Magnetostatic | Tesla Motor Model 3 |
The 3D studied device, the Tesla Model 3's electric motor, includes
the following elements:
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| 3D Transient Magnetic | Wireless Power Transfer | The coupler in an inductive power transfer system includes the following elements, an energy transmitter, and an energy receiver, each includes a coil as well as ferromagnetic material. For this device, its mutual-inductance value is the most important physical quantity. Because the mutual-inductance value determines the ability to transmit power, it is of great significance to the design of the coupler and the control circuit |  |
| 3D Transient Magnetic | Axial Flux Machine | This study case is devoted to the modeling and analysis of an axial flux machine with one internal rotor and two external stators. The motor geometry and meshing description are defined by using the AFM modeling tool. |  |
| Axial Flux Machine (MT3D) | AFM solution - Axial Flux Machine | his study case will present how to use the new “Axial Flux Motor” solution in SimLab to model and analyze a 12s/10p axial flux machine. This new solution can effectively help users quickly build motor geometric models and automatically configure physical definitions (including circuits) to achieve rapid analysis of cogging torque, back EMF, and working point. |  |
| 3D AC Magnetic | Induction Motor | This study is a parametrized magneto-harmonic analysis with values of rotor slip in order to evaluate the motor characteristics for rated load operation and display torque and current versus slip curves. |  |
| 3D AC Magnetic | Forced cooling at the end of the heating | The studied device is composed of a mobile billet and a supply inductor. The goal is to simulate a forced cooling process at the end of heating (when the billet is out of the coil). |  |
3D Electrostatic |
Streamers in an insulator |
The studied device is an insulator separating two conductors, one at high potential, and another one grounded. The device is in the air. The aim is to study ionized canals propagation (Streamers propagation) with "Streamer Criterion" Load. |
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