Researchers have used it to confirm the uniformity of magnetic fields experimentally, showing good agreement between simulations and measured values.
Vizimag 3193 doesn't just show pretty pictures; it provides quantitative data:
Used to simulate the magnetic field strength of magnets arranged around capillary tubes, proving that field strengths (up to 300 mT) were consistent across experiments. vizimag 3193
: Users can view magnetic field patterns through various modes, including field lines, flux density contours, and slices. Efficiency
Vizimag 3.193 bridges the gap between abstract physics equations and physical reality. It is heavily deployed across two primary domains: 1. Rapid Industrial Prototyping Researchers have used it to confirm the uniformity
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
In the fields of physics, electrical engineering, and education, visualizing unseen forces is one of the greatest design challenges. Magnetic fields are inherently invisible, yet they dictate the performance of everything from simple school experiments to complex industrial machinery. To bridge this gap, engineers and educators have long relied on simulation tools. Among the most enduring, accessible, and fast tools for this purpose is , an specialized 2D magnetic structure modeling software. Efficiency Vizimag 3
: Users can define specific parameters for each element, such as resistance Linear Modeling
Define coils or wires with specific current densities to create electromagnets. 2. Instant Visualization (WYSIWYG)
Determine the exact direction and magnitude of the field at any specific point in the workspace. 2. Material Property Library