- #Database workbench line bending install#
- #Database workbench line bending manual#
- #Database workbench line bending mac#
FEM mesh boundary layer: Creates anisotropic meshes for accurate calculations near boundaries.FEM mesh from shape by Gmsh: Generates a finite element mesh for a model using Gmsh.FEM mesh from shape by Netgen: Generates a finite element mesh for a model using Netgen.Constant vacuum permittivity: introduced in version 0.19.Constraint pulley: Used to define a pulley constraint.
Constraint gear: Used to define a gear constraint. Constraint bearing: Used to define a bearing constraint. Fluid boundary condition: Used to define a fluid boundary condition. Constraint body heat source: Used to define an internally generated body heat. Constraint temperature: Used to define a temperature constraint on a point/edge/face(s). Constraint heatflux: Used to define a heat flux constraint on a face(s). Constraint initial temperature: Used to define the initial temperature of a body. Constraint self weight: Used to define a gravity acceleration acting on a model. Constraint centrif: Used to define a centrifugal body load constraint. Constraint pressure: Used to define a pressure constraint. Constraint force: Used to define a force in applied uniformly to a selectable face in a definable direction. Constraint spring: Used to define a spring. Constraint tie: Used to define a tie constraint ("bonded contact") between two faces. Constraint contact: Used to define a contact constraint between two faces. Constraint displacement: Used to define a displacement constraint on point/edge/face(s). Constraint fixed: Used to define a fixed constraint on point/edge/face(s). Constraint transform: Used to define a transform constraint on a face. Constraint section print: Used to print the predefined facial output variables (forces and moments) to the dat file. Constraint plane rotation: Used to define a plane rotation constraint on a planar face. Constraint flow velocity: Used to define a flow velocity as a boundary condition at an edge (2D) or face (3D). Constraint initial flow velocity: Used to define an initial flow velocity for the domain. Constraint electrostatic potential: Used to define electrostatic potential. Fluid section for 1D flow: Used to create fluid section element for pneumatic and hydraulic networks. Shell plate thickness: Used to define shell element thickness. Beam rotation: Used to rotate cross sections of beam elements. Beam cross section: Used to define cross sections for beam elements. Material editor: Lets you open the material editor to edit materials. Reinforced material (concrete): Lets you select reinforced materials consisting of a matrix and a reinforcement from the database. Nonlinear mechanical material: Lets you add a nonlinear mechanical material model. Material for fluid: Lets you select a fluid material from the database. 
Material for solid: Lets you select a solid material from the database. If a solid is selected in the tree view before clicking on it, the meshing dialog will be opened next. Analysis container: Creates a new container for a mechanical analysis. Workflow of the FEM Workbench the workbench calls two external programs to perform meshing of a solid object, and perform the actual solution of the finite element problem Menu: Model #Database workbench line bending install#
See FEM Install for instructions on setting up the external tools.
#Database workbench line bending manual#
Since the workbench makes use of external solvers, the amount of manual setup will depend on the operating system that you are using.
#Database workbench line bending mac#
The FEM Workbench can be used on Linux, Windows, and Mac OSX. Postprocessing: visualizing the analysis results from within FreeCAD, or exporting the results so they can be postprocessed with another application.Solving: running an external solver from within FreeCAD.Creating a finite element mesh for the geometrical model, or importing it from a different application.Adding materials to the parts off the geometric model.Adding simulation constraints such as loads and fixed supports to the geometric model.Modeling the geometry: creating the geometry with FreeCAD, or importing it from a different application.Preprocessing: setting up the analysis problem.The steps to carry out a finite element analysis are: Mainly this means all tools to make an analysis are combined into one graphical user interface (GUI). The FEM Workbench provides a modern finite element analysis (FEA) workflow for FreeCAD. 13 Extending the FEM Workbench documentation.
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