Translations:External workbenches/31/en


 * AirPlaneDesign (github link) is an experimental workbench to design wings and airplane objects.
 * Cfd (github link) brings the power of the OpenFoam solver to FreeCAD to perform computational fluid dynamics (CFD) simulations.
 * CfdOF (github link) is a fork of the Cfd workbench that focuses on ease of use; it is intended for people who are just starting in the world of CFD and OpenFoam.
 * DesignSPHysics (github link) is a workbench that provides a graphical user interface to DualSPHysics, a fluid dynamics solver.
 * EM Workbench provides a graphical interface for different solvers by FastFieldSolvers. At present it supports the 3D magneto-quasistatic impedance solver FastHenry. Support for the 3D electrostatic capacitance solver FasterCap is ongoing.
 * FreeCADTools: (github link) workbench for create metal profiles, square tubing, z profile, palette, rotation, drawing, and more.
 * GDT is a collection of tools to add geometric dimensioning and tolerancing (GDT) labels in 2D and 3D technical drawings. It implements the standard ISO 16792.
 * KicadStepUp is aimed at helping both KiCad and FreeCAD users in collaborating with electrical (ECAD) and mechanical (MCAD) design. With FreeCAD it's possible to design a printed circuit board, and push it to KiCad; alternatively, the board can be designed in KiCad, it can be imported by FreeCAD, it can be edited with the Sketcher Workbench, and pushed back into KiCad. The 3D model, boards and enclosure, can be exported to VRML with materials properties for use in KiCad or Blender.
 * LCInterlocking (github link) tools to create parts for laser-cutters. Add tabs and hinges. Export to SVG.
 * pyrate (github link) is a workbench to design optical lenses. The project aims to provide an optical raytracer for isotropic, homogeneous anisotropic and inhomogeneous isotropic GRIN media.
 * SheetMetal provides tools to design an object made of a folded sheet, such as a metal case or enclosure. The user starts with a flat sheet, then uses tools to extrude and bend the faces of the object by a certain distance, radius or angle, until the desired shape is obtained. The body may then be unfolded to obtain the required flat material that would be necessary to manufacture this body. The outline of this unfolded body may be used finally as the input for mills or lasercutting machines to obtain the required sheet profile.