finiteelementmodellering

Finiteelementmodellering, or finite element modelling (FEM), is a numerical method for approximating solutions to boundary value problems in engineering and physics. It subdivides a complex domain into smaller, simpler elements connected at nodes, enabling the solution of partial differential equations that describe physical fields such as displacement, temperature, or pressure.

The modelling process typically includes discretization of the domain into a mesh of elements (one-, two-, or

Time-dependent problems use dynamic analysis with mass and damping terms and may employ implicit or explicit

Mesh quality and refinement influence accuracy; practitioners perform mesh convergence studies and may employ adaptive refinement.

FEM is used across disciplines: structural mechanics, heat conduction, fluid-structure interaction, acoustics, electromagnetism, and biomechanics, among

Software tools range from commercial packages to open-source frameworks. Validation and verification are standard practices to

Limitations include model simplifications, numerical error, and the need for appropriate material data and boundary conditions.

Finiteelementmodellering is the Danish or Norwegian term for the same methodology used worldwide. The field continues