This system enables the user to compute the thermal field for problems with steady heat transfer analysis (heat conduction) and problem with transient heat transfer analysis with all types of boundary conditions for the structures with arbitrary geometry. It is also possible to convert computed thermal fields into the thermal load in order to determine the stress-strain state of the structure.
Simulation of heat conductivity
Steady and transient heat transfer process are simulated in the VISOR environment.
On the Thermal Analysis tab it is possible to generate the FE model, edit, define thermophysical parameters to finite elements of heat conductivity (thermal conductivity coefficient, heat absorption coefficient, unit weight) and convection (coefficient of convective heat transfer), define boundary conditions, define standard and non-standard types of loads, carry out analysis, evaluate and prepare documentation with the output data for thermal analysis. The Thermal Analysis tab becomes available when you generate the problem with model type 15.
Thermal Analysis tab ' to generate, modify, analyse and evaluate problems with heat conductivity
- The steady heat transfer analysis and transient heat transfer analysis may be carried out for the whole model and for certain nodes and elements.
- Thermal analysis may be carried out both in 2D and in 3D statement.