Flux2D application modules include:
Static electric fields with linear or nonlinear, isotropic or anisotropic dielectric materials. Shell regions can be used to model thin conductors as a line.
Examples:
Current flow in conductors with isotropic or anisotropic resistivity. Shell regions can be used to define current input.
Examples:
AC electric fields in lossy dielectrics. Material characteristics are linear only in this application.
Examples:
Static magnetic fields in linear or nonlinear, isotropic or anisotropic magnetic materials. Shell regions can be used to define analytically thin airgaps. Moving airgaps can be used to solve for multiple positions.
Examples:
Steady state AC analysis of electromagnetic fields and eddy currents in linear isotropic or anisotropic and isotropic nonlinear magnetic conduction materials. Rotating airgaps can be used to analyze multiple positions. External circuit connections are used to define electrical connectivity between conductors, power supplies, and external electrical loads.
Examples:
Time stepping transient analysis of electromagnetic fields including eddy currents in linear or nonlinerar, isotropic or anisotropic magnetic conduction materials. Moving airgap can be used to compute the effect of motion on the field distribution and the eddy current distribution. The eddy currents due to motion are also computed. Moving airgaps can be used to compute electromechanical problems (motion induced by magnetic fields and the effect of motion on the magnetic fields). External circuit connections are used to describe electrical connectivity between conducting regions, external loads, and power supplies. Back EMF in the coils due to the motion are also computed.
Examples: