Flux3D's application modules include:
Static computation of electric fields in linear or nonlinear isotropic or linear anisotropic dielectric materials. Formulation of scalar potential.
Examples:
Static computation of current distribution in linear isotropic or anisotropic conducting materials. Formulation of scalar potential.
Application:
Current distribution to be used as a source of a magnetostatic problems (weak coupling), equivalent resistance computation, tomographic electric conduction heating.
Static magnetic fields in linear or nonlinear, isotropic or anisotropic magnetic materials. Also includes nonlinear magnet models. Shell regions can be used as thin airgap elements or thin magnetic material regions. Sources can be the results of the electric conductions computation (weak coupling), formulation vector potential, scalar potential, and reduced scalar potential. These formulations can be combined.
Examples:
Steady state AC analysis of electromagnetic fields and eddy currents in linear magnetic conducting materials. Formulation of vector potential, reduced scalar potential and scalar potential for nonconduction regions magnetic vector potential and electric scalar potential, modified vector potential, electric vector potential and scalar magnetic potential and surface impedance for conducting regions. These formulations may be combined within the same problem.
Examples:
Temperature distribution in linear or nonlinerar, isotropic or anisotropic conducting materials. Source can be the result of an electric conduction or magnetodynamic problem. No losses through radiation or convection.
Examples: