Netz KnotenKrümmung
(Redirected from Mesh CurvaturePlot/de)
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|
|
| Menu location |
|---|
| Meshes → Curvature plot |
| Workbenches |
| Mesh |
| Default shortcut |
| None |
| Introduced in version |
| - |
| See also |
| Mesh CurvatureInfo |
Beschreibung
The Mesh VertexCurvature command creates Mesh Curvature objects for mesh objects. A curvature object displays the curvature of a mesh using different colors for the convex, flat and concave parts.
Example of a Mesh Curvature object
Anwendung
- Select one or more mesh objects.
- There are several ways to invoke the command:
- Press the
Mesh VertexCurvature button. - Select the Meshes → Curvature plot option from the menu.
- Select the Curvature plot option from the Tree view context menu or 3D view context menu.
- Press the
Eigenschaften
For a Mesh Curvature object the following properties are available in the Property editor. Select the Show all option from the Property editor context menu to display the hidden properties.
Daten
Base
- DataLabel (
String): a user editable name for the object, an arbitrary UTF8 string. - DataSource (
Link): a link to the mesh object.
Base
- DataCurv Info (
CurvatureList): a list of curvature information. - DataExpression Engine (
ExpressionEngine): a list of expressions. - DataLabel2 (
String): a user editable description for the object, an arbitrary UTF8 string that may include newlines. - DataVisibility (
Bool): if set totrue, the object appears in the 3D view.
View
Base
- ViewDisplay Mode (
Enumeration):Absolute curvature(default),Mean curvature,Gaussian curvature,Maximum curvature,Minimum curvature. - ViewOn Top When Selected (
Enumeration):Disabled(default),Enabled,Object,Element. - ViewSelection Style (
Enumeration):Shape,BoundBox(default). - ViewShow In Tree (
Bool): if set totrue, the object appears in the Tree view. - ViewVisibility (
Bool): if set totrue, the object appears in the 3D view.
Base
- ViewTexture Material (
Material): an App Material associated with the object.
Netze 
- Werkzeuge: Netz importieren, Netz exportieren, Netz aus Form erstellen, Krümmungsplot, Normalen ausrichten, Normalen umdrehen, Löcher füllen, Löcher schließen, Dreieck hinzufügen, Komponenten entfernen, Komponente von Hand entfernen, Netz-Segmente erstellen, Glätten, Skalieren
- Analysieren: Netz auswerten & reparieren, Dreiecksinformation, Krümmungsinfo, Netz auf Solid überprüfen, Abmessungen
- Regular solid: Regelgeometrie, Mesh Würfel, Mesh Zylinder, Mesh Kegel, Mesh Kugel, Mesh Ellipsoid, Mesh Torus
- Boolesche Operationen: Vereinigung, Schnitt, Differenz
Anwenderdokumentation 
- Installation: Installieren auf Windows, Installieren auf Linux, Installieren auf MacOSX; Erste Schritte
- Grundlagen: Über FreeCAD, Arbeitsbereiche, Programmeinstellungen, Dokumentstruktur, Graphische Oberfläche anpassen, Objekteigenschaften, Mausbedienung; Tutorials
- Arbeitsbereiche: Arch, Draft, FEM, Image, Inspection, Mesh, OpenSCAD, Part, PartDesign, Path, Plot, Points, Raytracing, Reverse Engineering, Robot, Ship, Sketcher, Spreadsheet, Start, Surface, TechDraw, Test Framework, Web
- Scripting: Allgemein: Einführung in Python, FreeCAD scripting tutorial, FreeCAD Scripting Basics, Wie installiere ich Makros?, Gui Command, Units Module: Builtin modules, Erstellung von Arbeitsbereichen, Weitere Workbenches installieren Meshes (Netze): Mesh Scripting, Arbeitsbereich Mesh Teile: Arbeitsbereich Part, Topological data scripting, PythonOCC, Mesh to Part Coin scenegraph: The Coin/Inventor scenegraph, Pivy Qt-Interface: PySide, Using the FreeCAD GUI, Dialog creation Parametrische Objekte: Scripted objects Andere: Code-Schnipsel, Linienzeichnungsfunktion, Einbetten von FreeCAD, FreeCAD-Bibliothek für Vektormathematik, Übersicht für erfahrene Anwender, Grundlagen der FreeCAD-Skripterstellung, Topologisches Daten-Scripting
