: Vizimag is a Windows-based modeling program designed for the rapid visualization of 2D magnetic fields.
Researchers have used it to confirm the uniformity of magnetic fields experimentally, showing good agreement between simulations and measured values.
Free to download and use for both commercial evaluation and education.
: Right-click the drawn components to select material attributes, coercivity values, or permanent magnet orientations. vizimag 3193
: It has been utilized to evaluate the nonlinear relationship between string displacement and magnetic flux in vintage instruments like the Clavinet. Prototyping
Designers utilize the software to map out how flux flows through laminations, stators, and rotor assemblies. By visualizing the 2D path, engineers can optimize the shape of the metal to maximize torque and prevent unexpected magnetic saturation. Inductor and Transformer Design
Description: Vizimag 3193 – Multispectral visualizer Quantity: 1 Status: Active / Calibrated : Vizimag is a Windows-based modeling program designed
Vizimag 3193 doesn't just show pretty pictures; it provides quantitative data:
Modifying a component's properties immediately opens the door to recalculating and seeing the structural field updates.
: Compare the simulation results with theoretical calculations or expected physical behavior (e.g., how the field weakens with distance). Step-by-Step Procedure : Right-click the drawn components to select material
: Ships with an expansive repository of pre-worked engineering models—including transformers, electric motors, and shielding arrays—that can be instantly modified. Primary Use Cases
is a legacy 2D magnetic field modeling software primarily used for visualizing and simulating magnetic flux lines, flux density, and force interactions in various electromagnetic systems. While it was once a popular tool for educational and light industrial purposes, it is now considered an "abandonware" style application due to its age and the emergence of more robust modern alternatives like FEMM or Ansys. Core Functionality
Physics and engineering students utilize the platform to bridge the gap between textbook Maxwell equations and practical engineering. It allows users to manipulate parameters and immediately observe changes in flux saturation or field distortion. 2. Prototyping Electric Motors and Actuators