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Partial Differential Equation Toolbox provides functions for solving structural mechanics, heat transfer, and general partial differential equations (PDEs) using finite element analysis.
You can perform linear static analysis to compute deformation, stress, and strain. For modeling structural dynamics and vibration, the toolbox provides a direct time integration solver. You can analyze a component’s structural characteristics by performing modal analysis to find natural frequencies and mode shapes. You can model conduction-dominant heat transfer problems to calculate temperature distributions, heat fluxes, and heat flow rates through surfaces. You can also solve standard problems such as diffusion, electrostatics, and magnetostatics, as well as custom PDEs.
Partial Differential Equation Toolbox lets you import 2D and 3D geometries from STL or mesh data. You can automatically generate meshes with triangular and tetrahedral elements. You can solve PDEs by using the finite element method, and postprocess results to explore and analyze them.
Key Features
Structural analysis, including linear static, dynamic, and modal analysis
Heat transfer analysis for conduction-dominant problems
General linear and nonlinear PDEs for stationary, time-dependent, and eigenvalue problems
2D and 3D geometry import from STL files and mesh data
Automatic meshing using triangular and tetrahedral elements with linear or quadratic basis functions
User-defined functions for specifying PDE coefficients, boundary conditions, and initial conditions
Plotting and animating results, as well as derived and interpolated values
Getting Started
Setting Up Your PDE
Solving PDEs
PDE Modeler App
Functions