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Graz University of Technology

CATIA V5
Basic Training
CAx in Automotive and Engine Technology 313.067 Dipl.-Ing. Michael Lang

CATIA V5 Basic Training
Graz University of Technology 2013

Preface
The present script includes an introduction of the main features in the 3D design software package Catia V5. Beside the basic tools of 3D design, a number of exercises and examples point to different construction strategies in several applications. In addition to the primary functions, methods for the generation of solid components and assemblings are explained and executed by use of different examples. Training targets:      Sketch mode Basic part design Enhanced features of part design Assembly design and product structure Generating drawings

The script is based on Catia V5 Release 16 and will be updated continuously. To keep the paper up to date and to fulfill the requirements on the Catia V5 education at a high level, questions, critics and new inputs are sincerely welcome. Please write an email to: Michael Lang: michael.lang@ivt.tugraz.at

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Table of contents
1 2 Introduction ..........................................................................................7
1.1. An excerpt of available workbenches ............................................................. 8

The user interface of CATIA V5 ...........................................................9
2.1. Graphic display .................................................................................................. 9 2.2. Mouse button assignment ................................................................................ 10 2.3. User defined settings ....................................................................................... 10

3

An excerpt of menus ..........................................................................11
3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 Start.............................................................................................................. 11 File ............................................................................................................... 11 Edit ............................................................................................................... 12 View ............................................................................................................. 12 Insert ............................................................................................................ 14 Tools ............................................................................................................ 14 Window ........................................................................................................ 15 Help .............................................................................................................. 16

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Toolbars in the workbench Part Design .............................................16
4.1 4.2 4.3 4.4 4.5 4.6 4.7 4.8 4.9 4.10 4.11 4.12 4.13 4.14 4.15 4.16 4.17 4.18 4.19 4.20 Standard toolbar ........................................................................................... 16 Knowledge ................................................................................................... 17 Workbench ................................................................................................... 17 Graphic Properties ....................................................................................... 17 View ............................................................................................................. 18 Select ........................................................................................................... 19 Sketcher ....................................................................................................... 19 Sketch-Based Features, Sketch-Based Features (compact) ..................... 19 Dress-Up Features ....................................................................................... 20 Advanced Dress-Up Features ...................................................................... 20 Reference Elements, Reference Elements (extended) .............................. 20 Constraints ................................................................................................... 20 Transformation Features .............................................................................. 21 Surface Based Features, Surface Based Features (Extended) ........... 21 Insert ............................................................................................................ 21 Boolean Operations...................................................................................... 22 Selection Sets .............................................................................................. 22 Tools ............................................................................................................ 22 Annotations .................................................................................................. 22 Analysis ........................................................................................................ 23 3

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4.21 4.22

Apply Material............................................................................................... 23 Measure ....................................................................................................... 23

5

The sketch mode Sketcher ................................................................24
5.1 Using the Sketcher ....................................................................................... 24 5.2 Operations in the sketch mode ..................................................................... 24 5.2.1 Sketcher ................................................................................................ 25 5.2.2 Profile .................................................................................................... 25 5.2.3 Operation .............................................................................................. 26 5.2.4 Constraint .............................................................................................. 27 5.2.5 Sketch Tools ......................................................................................... 27 5.2.6 Tools ..................................................................................................... 28 Example 1: Regular hexagon, wrench size of 100mm ............................................ 29 5.3 Structure of the specification tree of a sketch ................................................... 38 Example 2: Milled panel .......................................................................................... 39 Example 3: Mounting plate...................................................................................... 40

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Generation of bodies in the workbench Part Design ..........................40
6.1 3D Basic Features ........................................................................................ 40 Example 4 - PAD: Hexagon profile, Wrench size 100mm, Height 20mm ................ 40 Example 5 - SHAFT: Rotational solid ...................................................................... 43 Example 6 - RIB: Profile swept along a center curve .............................................. 45 6.2 Manipulation features ................................................................................... 46 Example 7: Plate ..................................................................................................... 47 The Feature Pocket ............................................................................................. 47 The Feature Groove ............................................................................................ 49 The feature Hole .................................................................................................. 49 Helpful additional functions ..................................................................................... 53 Applying material ................................................................................................. 53 Measure Inertia ................................................................................................... 53 Using Search ....................................................................................................... 53 Using Search ....................................................................................................... 54 Taking pictures of elements................................................................................. 54 Example 8: Clevis ................................................................................................... 55 Beispiel 9: Lever ..................................................................................................... 55 Example 10: Prism piece ........................................................................................ 56 Beispiel 11: Sleeve.................................................................................................. 56 Example 12: Prism with threaded holes .................................................................. 57 6.3. Dress-Up Features ....................................................................................... 58 Example 13: Angle piece ........................................................................................ 58 The feature Fillet ................................................................................................. 59 The feature Chamfer ........................................................................................... 60 The feature Draft Angle ....................................................................................... 61 Checking the Draft (Draft Analysis) ..................................................................... 62 The feature Shell ................................................................................................. 63 4

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Feature Thickness ............................................................................................... 63 Feature Thread .................................................................................................... 64 Example 14: Bearing block ..................................................................................... 65 Example 15: Angular prism ..................................................................................... 65 Example 16: Angle anchor plate with holes ............................................................ 66 Example 17: Machined part .................................................................................... 66 6.4 Transformation Features ................................................................................... 67 Example 18: Drilled Panel ....................................................................................... 68 Beispiel 19: Angle bracket....................................................................................... 69 Example 20: Asterisk shaped bracket ..................................................................... 70

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Part Design with several Bodies and Boolean Operations .................71
7.1 Boolean Operations .......................................................................................... 72 Example 21: Piston of a two-stroke engine ............................................................. 74 Example 22: Conrod ............................................................................................... 76

8. The Specification Tree in Part Design ................................................77
Example 23: Prism body ......................................................................................... 80 Example 24: Pendulum ........................................................................................... 80 Example 25: Adjusting wheel .................................................................................. 81

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Creating assemblies in the workbench Assembly Design ..................82
9.1. Operations in the Assembly Design mode ................................................... 82

9.1.1 Product Structure Tools ...................................................................82 9.1.2 Constraints ......................................................................................83 9.1.3 Move................................................................................................83 9.1.4 Space Analysis ................................................................................84 9.1.5 Update .............................................................................................84
9.2. The Specification Tree in Assembly Design ................................................. 85 9.3. The Desk in CATIA V5 ................................................................................. 86 Example 25: Crank drive ......................................................................................... 87 Example 26: Clamping device ................................................................................. 91

10 Excerpt of data management .............................................................92
10.1 Exporting 3D data ........................................................................................... 92 10.2 Exporting 2D data ........................................................................................... 93 10.3 CATIA V4 data ................................................................................................ 93 10.4 File administration ........................................................................................... 93 10.5 Publication ...................................................................................................... 94 5

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11 Creating drawings in the workbench Drafting.....................................95
11.1. Operations in the Drafting workbench ............................................................ 96 11.1.7 Drawing ................................................................................................. 96 11.1.8 Views .................................................................................................... 96 11.1.9 Dimensioning ........................................................................................ 96 11.1.10 Generation ......................................................................................... 97 11.1.11 Dress-up ............................................................................................ 97 11.1.12 Geometry Creation ............................................................................ 97 11.1.13 Geometry Modification ....................................................................... 97 11.1.14 Annotations........................................................................................ 98 11.2 The Properties Window ................................................................................... 98 11.3. Basic steps for the creation of a dimensioned 2D drawing ............................. 99

12 Create and use Parameters .............................................................102
Formula ................................................................................................................. 102

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1 Introduction
The 3D CAD system CATIA V5 was introduced in 1999 by Dassault Systems. Replacing CATIA V4, it represented a completely new design tool showing fundamental differences to its predecessor. The user interface, now featuring MS Windows layout, allows an easy integration of common software packages such as MS Office, several graphic programs or SAP-R3 products (depending on the IT environment) and others.

Figure 1: User interface CATIA V4.2.2

Figure 2: User interface CATIA V5 R15

The concept of CATIA V5 is to digitally include the complete process of product development, comprising the first draft, the design, the layout and at last the production and the assembly. The present training includes a selection of functionalities in the workbench Mechanical Design.

Figure 3: Selection of Workbenches

Sets of workbenches can be composed according to the user’s preferences. Therefore Dassault Systems offers three different software installation versions. The platform P1 contains the basic features and is used for training courses or for reduced functionalities. For process orientated work the platform P2 is the appropriate one. It enables, apart from the basic design features, analysis tools and production related functions. P3 comprises specific advanced scopes such as the implementation of external software packages.

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1.1.

An excerpt of available workbenches
Mechanical Design: Sketches, 3D Design, 2D Drawings

Shape: Surface based design, Free formed surfaces

Digital Mockup Digital Mockup, Packaging and Assembly Simulation

Equipment and Systems: Integration of complex elements and components such as wiring harnesses, hydraulic systems etc.

Analysis & Simulation: Calculation tool for the design accompanying simulation and analysis

Machining: Manufacturing simulation and control tool for numerically controlled machines

AEC Plant: Manufacturing and production planning, Optimization of production lines

Infrastructure: Interfaces, Comprehensive work with other software packages, Data transfer 8

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2 The user interface of CATIA V5
Compared to CATIA V4, the desktop design is completely new. Established elements of other software packages have been integrated and several well known features can be used in CATIA V5. Thus, figures can be directly inserted into MS Word documents out of CATIA V5, and MS Excel tables can be easily used as design tables in CATIA V5.

2.1. Graphic display

Figure 4: Graphic display in CATIA V5       

Menu bar with pull down menus for the access of CATIA features Workbench symbol for quick switching between the workbenches Standard toolbar containing common features such as Open, Close, Print, Cut and Paste The open window contains the model field and the specification tree Compass, used for changing the view and moving objects Status bar with instructions and prompts The workbench toolbar displays all the features, that can be used within a specific workbench 9

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2.2. Mouse button assignment
A three buttoned mouse is needed to control the movements of the elements and the zooming, in the 3D-space as well as in the specification tree. The following mouse button operation is used in the default configuration of CATIA V5. Elements in the 3D-design space: Move ... Rotate ... Zooming ... Press and hold the middle mouse button and move the mouse. Press and hold the middle mouse button. While still holding it, press and hold the left (or right) button and move the mouse. Press and hold the middle mouse button. While still holding it, press the left (or right) button once and move the mouse.

Changing the center ... Click the middle mouse button on the location of the element that shall be moved to the center of the window. The window center also represents the rotation center. Specification Tree: Move ... Zooming ... Press and hold the left mouse button while the mouse points at a branch of the tree, and move the mouse. Click once on a branch of the specification tree (or on the coordinate system in the right lower corner of the working space) with the left mouse button. The construction elements in the 3D space get darker, the tree is now set active. The zooming of the tree can be done as described above. Another click on a branch deactivates this function.

2.3. User defined settings
The pull down menu Tools / Options offers several user definable settings. For instance, display settings, construction facilities, file import and export settings, memory settings and many more settings can be adjusted. By using the Reset button, all parameter values can be set to the initial values fixed by Dassault Systems.

Figure 5: Options

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3 An excerpt of menus
This chapter explains a selection of the most important menu bars of the workbench Part Design. A couple of basic features (Start, File, Edit etc.) are also available in other workbenches, other menu bars differ depending on the specific demands of the modes. The following chapters give a deeper understanding of single menu bars in different workbenches.

3.1 Start
The Start menu contains the workbenches defined previously. The pull down menu is used to switch from one workspace to the other. Additionally, the recently opened, the active and the previous open file names are shown. By clicking on the names, the files can be activated.

3.2 File

Figure 6: Start menu

File comprises all the administrative functions for opening, saving or printing files. In addition, the recently used files are displayed.

Figure 7: File menu

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3.3 Edit
Some functions frequently needed during the design process such as Copy, Paste, Cut or Delete can be found in the menu Edit. The feature Update is used to refresh the construction. Undo and Repeat are very useful commands to move one design step backwards or forwards again. Search can find elements within the active document. The commands Selection Sets, Selection Sets Edition and Find Owning Selection Sets enable the definition and the recall of selection criteria. To edit document connections, Links is used. The definition or changing of component properties happens through Properties. Scan or Define In Work Object makes the navigation between elements and the definition of In Work-objects possible. The following construction steps are executed on this (defined) object.

Figure 8:Edit menu

3.4 View
The menu Toolbars allows the configuration of the toolbar visualisation on the screen. By clicking on a single toolbar name, the respective toolbar can be activated or deactivated. The Commands List is used to directly access commands.

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The commands Geometry, Specifications, Compass and Reset Compass activate or deactivate the corresponding elements. Tree Expansion permits the activation of the desired levels of the specification tree. Specifications Overview and Geometry Overview provide an overlook of the active Specification Tree and geometry. The visualization on the screen can be controlled by Fit All In, Zoom Area, Zoom In Out, Pan and Rotate with Modify providing even more options.

Figure 9: View menu

If different predefined views should be created with the possibility to quickly switch between them, the command Named Views can be useful. Render Style enables the adjustment of visualization settings. Apart from standard settings, user defined render styles can be configured. The menu Navigation Mode is used to choose from different types of part movement on the screen: Fly: => Translative and rotatory movement Walk: => Translative movement within an predefined plane The features Lighting and Depth Effect affect the display style of shaded objects. A base plane can be inserted via Ground. 13

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Magnifier can be used to display details. Hide/Show switches to the invisible space. Components, that are not needed at present, can be deposited in the invisible space. To enlarge the window to its full size, Full Screen has to be applied.

3.5 Insert
The Insert menu contains specific commands for each workbench. Most of these features can be activated via the toolbars as well. A detailed description of the main commands is carried out in the specific modes Part Design and Drafting.

Figure 10: Menu Insert within the Product mode

Figure 11: Menu Insert within the Drafting mode

3.6 Tools
The features contained in Tools control the settings and user defined features. Additionally, several workbench specific tools are available. Formula ... The parameters of the applied operations are displayed in a window. In addition, modifications and specific applications can be defined. Creation of pictures and videos 14

Image ...

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Macro ...

The creation of macros is carried out in Visual Basic. An administration function supports a creation and organisation of libraries. The menu Customize enables user specific modifications, as there are the arrangement of menu bars or a setting of the interface language.

Customize ...

Visualization filters ... Layers (e.g. design spaces) can be switched visible / invisible. Options ... Basic settings are adjusted via the Options - menu: Specification tree Navigation Performances Visualization Thickness & Font Linetype

Figure 12: Tools menu

Standards ... Conferencing ...

To set default values for element properties, use Standards. Conferencing is needed to organize conferences.

3.7 Window
Opened windows can be arranged and new windows can be opened with the Window menu. Furthermore the open files are displayed there. 15

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3.8 Help
A contextual help (What’s This?), explaining the commands instantly and a help menu (CATIA V5 Help) which requires special installation, are provided by CATIA V5.

4 Toolbars in the workbench Part Design
The desired toolbars can be shown and removed using the menu View / Toolbars. Depending on the activated workspace, specific toolbars are available. Beside the general toolbars Standard Knowledge Workbench Graphic Properties and View, some workbench specific toolbars will be explained. After switching to another workbench, the menu Toolbars automatically activates the accordant functions. Operational functions are not only accesseble in the according toolbars, they can also be accessed by the pull down menu Insert.

4.1 Standard toolbar

New ... Open ... Save ... Print ... Cut ... Copy ... Paste ... Undo selection ... Redo ... What’s this? ...

Creates a new part, assembly or drawing document Opens an existing document Saves the active document Prints the active document on the default printer, using the default printer settings Removes the selection from the active document and places it on the clipboard Copies the selection to the clipboard Inserts the content of the clipboard at the selected location Reverses the last action. It is possible to recall the command log and undo the last actions using the pull down menu Repeats the last cancelled action Provides help on toolbar icons 16

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4.2 Knowledge

Formula ... URLs and Comment ...

The feature Formula corresponds with the one of the pull down menu Tools Create and edit URL addresses.

Check Analysis Toolbox …The check analysis tool allows users to show and fix all broken checks to validate the design and generate reports Design Table ... Knowledge Inspector ... Create and edit design tables and laws to create and edit component families Analyzes impacts of change in parameter value or advises parameter modification

Lock Selected Parameters … Locks selected parameters and parameters in selected features Equivalent Dimensions … Creates equivalent dimensions

4.3 Workbench
Workbench ... The Workbench icon indicates the active workbench

4.4 Graphic Properties

Graphical adjustments such as fill colour, zooming, line thickness, line style, point style and layer setting can be done.

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4.5 View

Fly ... Fit all in ... Pan ... Rotate ... Zoom In... Zoom Out ... Normal View ... Create Multi-View … Views ...

When navigating in the Fly mode, translations and rotations in all three directions in space are possible. Zooms in or out, so that all the selected geometry optimally fits the available space. Pans the view Rotates the view Zooms in in increments Zooms out in increments Displays the part with a view normal to a plane Creates four different views in the current window Different standard views can be chosen: Isometric View, Front View, Back View, Left View, Right View, Top View, Bottom View, Named Views Shading … Shading with Edges … Displays the geometry in shading mode Displays the shaded geometry with edges

View Modes:

Shading with Edges without Smooth Edges … Displays the shaded geometry with edges without smooth edges Shading with Edges and Hidden Edges … Displays the geometry with edges and hidden edges Shading with Material … Displays the shaded geometry with material Wireframe … Displays the geometry in wireframe mode

Customize view parameters … Activates the customized view mode, enabling a customization of the view parameters Hide / Show ... Alternatively displays hidden and shown objects. Hidden elements are dimmed grey in the specification tree. Makes hidden space visible again

Swap visible space ...

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4.6 Select
The Select menu offers several selection tools. Apart from a single selection, different trap selections can be chosen.

4.7 Sketcher
The sketch mode is used to create 2D contours as a basis for the following 3D modeling. A parameterization of the sketches is not mandatory. A detailed description of the sketcher follows in chapter 5.

4.8 Sketch-Based Features, Sketch-Based Features (compact)
Sketch-Based Features and Sketch-Based Features (compact) are required to generate 3D solid geometries.

Pad ... Pocket ...

Creates a prism from an open or closed profile. The profile can be generated in a sketch. The command Pocket creates a prism from a profile that is removed from a body.

Shaft / Groove ... Shaft creates a rotating solid from a profile and an axis of revolution. A Groove is a shaft that is being removed from an existing geometry Hole ... Creates a hole within an existing body. The hole can also be threaded or countersunk

Rib / Slot ... Creates a rib or a slot (i.e. a removed rib) by sweeping a profile along a center curve Stiffener ... Creates a stiffener

Multi-sections Solid / Removed Multi-sections Solid ... Creates a solid (or a removed solid) defined by several profiles and corresponding guiding curves

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4.9 Dress-Up Features
The Dress-Up Features enable changes on existing bodies. Edge Fillet ... Generates an edge fillet. Additionally, several other modes are available: Variable Radius Fillet, Face-Face Fillet and Tritangent Fillet Chamfer ... Creates a Chamfer by removing or adding material from a selected edge. Several input modes are possible (Length – Angle, Length – Length) Draft Angle ... The commands Draft Angle, Reflection Line and Variable Angle Draft facilitate the creation of drafts on existing solids. Shell ... Creates a shell by hollowing out an existing geometry

Thickness ... Selected surfaces of an existing solid can be supplied with allowances Thread / Tap ... Creates a thread or tap by specifying its support, limits and numerical values Remove Face … Removes one or more faces

4.10 Advanced Dress-Up Features
The command Advanced Draft offers enhanced draft options such as defining several pulling directions for one solid.

4.11 Reference Elements, Reference Elements (extended)
Reference elements are generated by means of prompt windows to define all relevant parameters. Point ... Line ... Plane ... Creates one or more points in space Creates a line in space Creates a plane in space

4.12 Constraints
Constraints Defined in Dialog Box ... Constraint ... Manages predefined constraints Creates a constraint

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4.13 Transformation Features
Translation ... Rotation ... Symmetry ... Translative movement of a solid in space [Direction, Distance] Rotates a solid around an axis [Axis, Angle] Mirrors a solid without duplication in reference to a selected face or plane [Reference = face/plane]

Mirror ...

Mirrors a solid (with duplication) in reference to a selected face or plane [Reference = face/plane]

Rectangular Pattern ... Creates a two dimensional rectangular pattern to repeat a feature [Instances, Spacing] Circular Pattern ... Creates a circular pattern to repeat a feature [Instances, Angular Spacing] User Pattern ... Scaling ... Creates a user pattern to repeat a feature Scales (expands or compresses) an element

4.14 Surface Based Features, Surface Based Features (Extended)
Split ... Thick Surface ... Close Surface ... Splits a solid by use of a plane, face or surface Creates a thick surface based on a surface by specifying two thicknesses This feature closes surfaces (e.g. surfaces that were designed in Wireframe and Surface mode), i.e. it generates a solid from the surface Integrates surfaces into a solid

Sew Surface ...

4.15 Insert
Insert is used to insert a new body or geometrical set in the specification tree. The new element is inserted beneath the active element or into a specified component.

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4.16 Boolean Operations
By means of this menu commands affecting two bodies can be carried out. The reference body should be set In Work. Assemble ... Add ... Remove ... Intersect ... Assembles a body with another body Adds a body to another body Removes a body from another body Intersects a body with another body, resulting in a single body that displays the shared space

Union Trim ... Remove lump ...

Merges two bodies and enables a trim function Removes a single piece of a body. This is a special case of Boolean Operations as it concerns only one body

4.17 Selection Sets
Selection Sets Edition ... Create and edit selection sets Selection Sets ... Management of the saved selection sets

Find Owning Selection Sets … Find all selection sets including the selected element

4.18 Tools

Update All ... Axis System ... Mean Dimensions ... Create Datum ... Only Current Body … Catalog Browser ... Select Current Tool …

Updates all features and connections within the part Creates an axis system Computes mean dimensions on toleranced parameters Creates a datum feature (= feature without history) Option to display only the current body Opens a catalog, e.g. a screw catalog Selects / renames a current tool

4.19 Annotations
Text with Leader ... Creates a text with a leader line Flag Note with Leader ... Creates a flag note with a leader line and URL support. 22

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4.20 Analysis
The Analysis features support a construction check regarding the producibility. Draft Analysis ... Curvature Analysis ... Analysis of drafts Analyzes the curvature of surfaces

Tap - Thread Analysis ... Analyzes all threads and taps of a component

4.21 Apply Material
Material properties can be applied to a body, enabling the computation of weight, inertia etc.. Apply Material ... Applies a material to a part

4.22 Measure
Measure Between ... Measure Item ... Measure Inertia ... Measures between two elements Measures characteristics of an element Measures inertial properties associated to a selected volume

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5 The sketch mode Sketcher
The sketch mode is used to create two dimensional sketches. A parameterization is not mandatory. When working in the workbench Part Design, sketches can serve as a basis for the generation and modification of solids.

5.1 Using the Sketcher
The sketch mode is activated by clicking on the button Sketch. The Sketch Support has to be a plane or a planar surface. The Sketcher rotates the selected plane parallel to the screen plane (default setting in the Options). For switching or refreshing the adjustment of the screen view, the feature Normal View has to be used. The image plane is aligned parallel to the selected support plane. In sketch mode a reference coordinate system is laid into the chosen plane. The sketch module is positioned just below the active object in the Specification Tree, and it contains the Geometry and the Constraints. A grid is shown, offering a snap function, if Snap to Point has been activated. The preset toolbars are displayed on the right margin.
Figure 13: Sketch mode

The individual setup of the desktop is done through Tools / Options (in the menu bar). The selection of the toolbars happens via the menu View / Toolbars.

5.2 Operations in the sketch mode
The sketch mode contains, apart from standard toolbars, the following workbenchspecific tools:

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5.2.1 Sketcher

Workbench – Sketcher icon... Exit workbench ...

Shows the active workbench Leaves the Sketcher and gets back to the previously active workbench

5.2.2 Profile The menu Profile provides features for the creation of basic geometrical elements. While not being parameterized, the contour is displayed as white lines.

Profile ... Predefined Profile ...

Creates a profile made of lines and arcs. Creates predefined profiles:

-Rectangle -Orientated Rectangle -Parallelogram -Elongated Hole -Cylindrical Elongated Hole -Keyhole Profile -Hexagon -Centered Rectangle -Centered Parallelogram Circle ... Creates circles and parts of circles:

-Circle -Three Point Circle -Circle Using Coordinates -Tri-Tangent Circle -Three Point Arc -Three Point Arc Starting with Limits -Arc Spline ... Creates a spline by clicking or selecting points:

-Spline (curve through points) -Connect (Creates an arc connecting two curves) 25

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Conic ...

Creates Conic Curves:

-Ellipse -Parabola by Focus -Hyperbola by Focus -Conic Line ... Creates Lines:

-Line -Infinite Line -Bi-Tangent Line -Bisecting Line -Line Normal To Curve Axis ... Point ... Creates an axis, e.g. for the creation of rotating bodies Creates a point by clicking:

-Point by Clicking -Point by Using Coordinates -Equidistant Points -Intersection Point -Projection Point 5.2.3 Operation

Corner ... Chamfer ... Relimitations ...

Creates a corner with a user defined radius. Creates a beveled corner. Modifies lines or profiles

-Trim -Break -Quick Trim -Close -Complement

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Transformation

Transformation components:

-Mirror -Symmetry -Translate -Rotate -Scale -Offset 3D Geometry ... Generates 2D-curves from 3D elements:

-Project 3D Elements -Intersect 3D Elements -Project 3D Silhouette Edges 5.2.4 Constraint The toolbar Constraint contains features for the assignment of constraints. Constraints Defined in Dialog Box ... Creates constraints checked in a dialog box Constraint ... Creates a geometrical or dimensional constraint

-Constraint -Contact Constraint Constrained Geometry ... Creates Constraints:

-Fix together -Auto Constraint Animate Constraint ... Edit Multi-Constraint Animates dimensional constraints to show how the constrained system reacts Edits constraint values and evaluates the constrained geometries at the end

5.2.5 Sketch Tools

Grid ...

Displays a grid 27

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Snap to Point

Snaps the points to the nearest intersection points of the grid

Construction / Standard Element ... Converts sketch elements into ‚construction’ or ‚standard’ elements Geometrical Constraints ... Dimensional Constraints ... Creates the detected and the internal constraints during sketching Creates dimensional constraints

5.2.6 Tools

Create Datum … Only Current Body … Output Feature … Profile Feature … 2D Analysis Tools …

Creates a datum feature (without history) Option to display only the current body Creates an output feature by selecting a 2D geometry Creates a profile feature by selecting a 2D geometry Tools assisting the sketch analysis:

-Sketch Solving Status -Sketch Analysis

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Example 1: Regular hexagon, wrench size of 100mm
Intention: Using the Sketcher This first example should describe how to generate sketches within the Part Design workbench. To activate Part Design just open a new part after having started CATIA V5:

1. File / New

By selecting Part the workbench Part Design opens. The predefined toolbars of the selected workbench appear around the working area on the screen.
Figure 14: Opening a new part

2. Open the Sketcher

3. Select the xy-plane as sketch plane The sketch plane can be selected by clicking on a plane either in the modelling area or in the structure tree. The selected plane is then rotated in a way that it is parallel to the screen plane, and the sketch mode is activated. The corresponding toolbars appear.

Figure 15: Select a sketch plane

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4. Create a sketch Using the feature Line (contained in the Profile menu), a hexagon can be drawn. Double clicking the icon activates the repetition mode. The Snap to Point mode allows to catch the ending point of the previous lines. When the line happens to be nearly vertical or horizontal, a corresponding constraint is established by activating the Snap to Point mode. The repetition mode of the Line feature is deactivated by clicking on the icon once more. Another way of creating curves containing lines (and circles) is provided by the feature Profile.

Figure 16:The Sketch workbench

The symbols H and V next to the lines designate their horizontal or vertical orientation. During sketching the lines turn blue to show a constraint. Coincidences are displayed as small green circles. By double clicking onto the constraints, the corresponding windows open. Constraints can be removed using the delete function. The geometrical elements can be defined in different ways. One possibility is by double clicking the geometrical elements opening an input window.

Figure 17: The first draft of the hexagon

Figure 18 shows the input window of a vertical line. Similar windows exist for all basic geometrical elements in the sketch mode.

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The feature Construction Element enables the creation of auxiliary sketches or elements that are NOT used for the generation of bodies. Auxiliary elements have to be created as Construction Elements; otherwise, features as Pad are not able to create a geometry from the sketch.
Figure 18: Definition of the vertical line on the right side

5. Constraining the sketch Using Constraints, different constraints (geometrical constraints and dimensions) can be defined. Both, angle dimensions and linear dimensions, can be defined.

Figure 19: Using Constraints

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One possibility to dimension the hexagon is shown in Figure 21, but several other ways are possible. The dimensions shown in Figure 19 show the values of the first draft; the dimension values can be changed by double clicking the values, e.g.:

Figure 20: After confirming the modification, CATIA is changing the geometry according to the new value.

Figure 21: The completely dimensioned hexagon

The hexagon has to be constrained as well as its position in the working space. The dimensioning of the sketch is complete when all elements turn green. White lines are not completely parameterized, purple lines are overconstrained.

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Figure 22: Sketch containing over constrained elements

Overconstrained elements have to be revised. Underconstrained elements can be used, but undefined dimensions are considered as variable. Therefore these elements (displayed white) can be modified by CATIA, if needed. In case that the profile is opened, it can be closed using Trim. After selecting the button the two geometrical elements that shall be trimmed have to be selected. The sketch mode offers the following constraints: Horizontal Vertical Coincidence Perpendicular (90°) Fix Parallelism
Figure 23: Constraint definition Concentricity Tangency Length, Distance, Angle, Diameter, Radius

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The pop up window shows all necessary inputs for the particular constraint. This feature can be useful especially for the modification of dimensions. Some definition windows are shown in Figure 24. They are all similar: The specifications of the geometrical elements are displayed and can be modified.

Figure 24: Definition windows for several geometrical elements

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Figure 25: Constraint definition via a definition window

Apart from generating dimensions one by one, it is possible to create several constraints at one time. To open the according window, the regarding elements have to be marked (left mouse button, for multi selection press the Ctrl. button on the keyboard) and Constraints Defined in Dialog Box selected. The dialog box allows to select constraints that can be used for the selected elements.

The button Exit Workbench causes CATIA to return into the 3D mode.

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Alternative hexagon design: CATIA provides the feature Hexagon, which creates a regular hexagon.

The required input data are the center point of the hexagon and the center point of one of the edges. The wrench size and the orientation of the hexagon can be defined by use of constraints. This special feature creates not only the hexagon contour, but all the single elements that can be selected and modified individually. For example, this permits to delete one single edge.
Figure 26: Create a hexagon using Hexagon

The toolbar Sketch tools

Sketch tools is used to set miscellaneous helpful adjustments. Grid displays gridlines; the grid size can be adjusted in the menu Tools / Options / Mechanical Design / Sketcher / Grid. Snap to Point snaps points to the nearest intersection points of the grid. The next feature switches to the construction mode. When Construction / Standard Element is activated, from now the generated geometry is being defined as construction elements and can not be used in the sketch mode. Elements can also be defined as construction elements ex post by simply selecting them and pressing the Construction / Standard Element button. Another possibility to switch between the two modes is to open the definition box of the respective element and activate / deactivate Construction Element.
Figure 27: Turning a point to a Construction Element

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The following features activate the automatic assignment of geometrical or dimensional constraints. These constraints are displayed green and support the sketching. If Geometrical Elements is being deactivated, the constraints are displayed but not applied.

Figure 28: Sketch Tools toolbar for the feature Profile

Some additional options supporting the creation of geometry are contained in Sketch tools. One of them is activated, if the feature Profile is used: The type of the profile continuation can be chosen (Line, Tangent Arc, Three Point Arc). Sketch Analysis Sketch Analysis enables an easy check of the sketch concerning open contours, interfering points or overlaps. This tool can be used for revising and editing the sketch.

Figure 29: Sketch Analysis

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5.3 Structure of the specification tree of a sketch
The Specification Tree shows the position of the sketch within the Body and all the elements contained in the sketch. The coordinate system of the sketch is displayed in the tree as well. When leaving the sketch mode, the coordinate system is being switched into the noshown space. The group Geometry contains the geometrical elements; double clicking the elements in the tree opens the definition windows of the according elements. Constraints contains the set constraints; they can be edited similar to the geometrical elements (by double clicking). Clicking on an element with the right mouse button opens a window with multiple options (Figure 30).

Figure 30: Option window of a line

Apart from editing features such as Hide / Show and Cut / Copy / Paste, the menu offers access to Properties (Graphic, Feature Properties and Mechanical) where, amongst other things, the name and the graphic properties of the element can be set.

Figure 31: Specification tree of a sketch

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Figure 32 shows the complete hexagon sketch. Using Pad generates a body from the sketch. For editing the sketch, e. g. modifying the geometry, the sketch has to be double clicked, either in the structure tree or in the modeling area. The changes of the sketch are automatically taken into account for the creation of the pad.

Figure 32: Complete hexagon

Example 2: Milled panel
Intention: Contour creation and dimensioning in the Sketcher

Figure 33: Milled panel

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Example 3: Mounting plate
Intention: Contur creation and dimensioning in the Sketcher

undimensioned radii: 12mm

Figure 34: Mounting plate

6 Generation of bodies in the workbench Part Design
The workbench Part Design is used to create solid bodies. One Part can contain several bodies. Based on the bodies, other features can be carried out, such as Drafting or the creation of Products. The bodies are generated by use of sketches (created in the Sketcher mode). Based on these contours, basic solids are designed. Subsequently the solids can be modified (e. g. with Pocket, Chamfer, Fillet, Hole etc.).

6.1 3D Basic Features
The following basic features are offered:

Pad

Shaft

Rib

Example 4 - PAD: Hexagon profile, Wrench size 100mm, Height 20mm
Intention: Application of the feature Pad The sketch created in Example 1 is used as a basis for the solid. Selecting the button Pad opens a definition box wherein the attributes can be edited.

Figure 35: Pad definition

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The Limit Type specifies the definition of the pad length. One possibility is to use limiting planes or surfaces. This example uses the limiting type Dimension, the length is set 20mm. Sketch 1 is selected as a profile.  Annotation: The sketch has to contain a closed contour to create a standard pad. The feature Mirrored extent enables the extension of the body in both directions, Reverse Direction switches the extension direction. Selecting More activates an extended definition window with the following options: Second Limit: Extension into the other direction Direction: Select the extension direction (e. g. by selecting a line) Thin Pad (only available when Thick is activated): Creates a body with a defined thickness on both sides of the profile. The complete body is displayed according the
Figure 36: Extended Pad definiton box

input values.

The hexagonally shaped solid is based on the sketch and the values of the pad definition. To modify properties, the solid can be selected (either in the model area or Pad 1 in the specification tree). The definition box should appear; it also offers the modification of the according sketch ( ).

The element Pad 1 has been inserted by CATIA in the specification tree. To rename Pad1, click at the right mouse button. In the appearing properties window the menu Properties / Feature Properties can be used to rename the element, and Properties / Graphic changes the color.
Figure 37: The complete Pad

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Figure 38: Properties menu of a pad

As a result, the hexagonal body is called First Try in the specification tree and is turned green. The part can be saved using File / Save as.

Figure 39: Saving the hexagonal part

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Example 5 - SHAFT: Rotational solid
Intention: Application of the function Shaft The feature Shaft generates rotating bodies; the rotation of the generating profile doesn’t need to be full 360°. The rotation axis doesn’t need to intersect the rotating profile, rendering possible the creation of closed rotating profiles such as tori. The Shaft definition demands a sketch, defining the rotating profile, and an axis of revolution. The following profile has to be generated using the sketch mode:

Figure 40: Sketch of the profile

After leaving the sketch mode and selecting the feature Shaft, a definition box for the shaft appears.

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Figure 41: Creating a Shaft

The sketch is used as Profile, the rotation axis is the vertical line of the coordinate system. The First Angle is set to 360 degrees, the Second Angle is zero degree.

Figure 42: Complete rotating body

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Example 6 - RIB: Profile swept along a center curve
Intention: Using the Rib feature Two sketches or curves are needed to create a rib: 1. A contour of the rib 2.The center curve along which the contour is being swept

Figure 44: Profile and Center curve

Figure 45: Sketch of the Profile

Figure 43: Rib

Figure 46: Sketch of the Guide curve

After creating both sketches in two perpendicular planes, the feature Rib can be selected.

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Figure 47: Defining aRib

The definition box prompts a Profile and a Guide Curve.  Annotation: The sketch support can be changed: The sketch has to be clicked with the right mouse button and Sketch.x object / Change Sketch Support has to be selected. The new support plane has to be picked. The existing constraints have to be adapted, if they refer to former reference elements.

6.2 Manipulation features
The following functions are a selection of the toolbar manipulation features and can be used to modify bodies.

Pocket

Groove

Hole

The manipulation features can, similar to the 3D basic features, base on sketches created in the sketch mode. Only the function Hole allows the definition of parameters within the dialog box; the positioning of the hole is done with a sketch that can be activated within the box. 46

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Example 7: Plate
Intention: Application of the features Pocket, Groove, Hole As a basis solid, a Pad measuring 80 x 110 x 30mm has to be generated.

Figure 48: The basis solid

The Feature Pocket Pocket creates a ‘negative pad’, i.e. it is removed from the basis solid. To create this negative pad, a profile is required. Therefore a surface of the solid pad is selected as sketch reference for the contour.

Figure 49: Selecting a face of the pad as sketch support

All geometrical elements should be constrained clearly and without ambiguity.  Annotation: It is valid to use edges, wireframe elements or other elements outside the sketch as references for the sketch. Figure 50 shows the sketch using the edges of the pad as references for different dimensions.
Figure 50: Sketch for the Pocket

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Figure 51: Pocket definition

After picking the button Pocket, a definition box appears. The Depth is set to 20mm, the Profile is the sketch created before. Selecting More opens an extended Pocket definition box providing detailed options for limitations, shape and extension of the pocket.

Figure 52: Extended Pocket definition box

Figure 53 shows the basic pad and the cut, displayed in shaded view. The specification tree contains the Pad and the according Sketch.1. Underneath, the Pocket and Sketch.2, that it is

Figure 53: Body including Pad and Pocket

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based on, are displayed. Any modification of the Pocket can be carried out by simply selecting a face of the Pocket, or by selecting the Pocket within the specification tree. A definition window of Pocket.1 appears and modifications can be performed.

The Feature Groove A Groove is a negative Shaft, the definition happens similar to the function Shaft. The input parameters have to be a Profile and a Rotation Axis. As reference plane of the Profile sketch a side face of the basic Pad is selected. The definition box prompts the Profile and the Axis.

Figure 54: Sketch of the Profile

Figure 56 shows the complete body including the removed Groove.

Figure 55: Groove definition

Figure 56: Pad with Pocket and Groove

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The feature Hole Holes and threads can be created on existing bodies using the feature Hole. As an example, a Hole is applied on the upper face of the Pad. Therefore the icon Hole is activated and the according surface has to be picked. All relevant input data are can be defined in the dialog box. The Positioning Sketch controls the position of the Hole.

Figure 57: Selecting the reference plane for the Hole

The desired Hole measures 10mm (Diameter) x 10mm The drill (Depth). ought to be an ordinary one (VBottom) with an apical angle of 120°. The Hole ought to be perpendicular to the surface. Other options for defining the Hole are shown subsequently.

Figure 58: Hole definition

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The Positioning Sketch of the Hole enables the definition of the Hole location on the reference surface. CATIA positions the coordinate system of the sketch at the place that has been clicked at when defining the reference surface for the hole. If that point is already constrained (e. g. the point is already fixed) a Positioning Sketch is not needed.

Figure 59: Positioning Sketch for the Hole

Figure 60 shows the complete plate, including the Hole. In case of changeing parameters, the definition box can be accessed by double clicking the Hole.

Figure 60: Plate with Pocket, Groove and Hole

The following options are available in the definition window Hole:

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Extension: The following settings are available: Type of Relimitation of Hole Limit ( Blind, Up to Next, Up to Last, Up to Plane, Up to Surface) Dimensions of the Hole. Direction (normal to the surface or along an axis) Location of the Hole, defined by a Positioning Sketch. Bottom of the Hole (Flat or V-Bottom)
Figure 61: Hole Definition, Extension

Type: This menu allows the definition of a counterbore; several types are possible. If chosen, the required parameters for the type are prompted.

Figure 62: Hole Definition, Type

Thread Definition: To create a Thread all parameters have to be defined using the according window. The core diameter is calculated by CATIA (in case of standard theads). When generating a 2D Drawing, the Thread specifications in the drawing can be created by CATIA itself.

Figure 63: Hole Definition, Thread Definition

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Helpful additional functions
Applying material To apply material to the plate, the appropriate feature has to be selected. A dialog box opens, offering several material types. The element that has to be supplied with material has to be marked, as the material has to be. By selecting Apply material, the material properties are assigned to the geometrical element, and the icon is displayed in the Specification Tree.

Figure 64: The dialog box for applying material

Measure Inertia Beside the common measure function for values and distances, the icon Measure Inertia activates a number of measurings, such as volume, mass, area or inertia using the set material properties. Several options can be set, e.g. an axis or a coordinate system for the inertia calculation, can be selected.

Figure 65: Measure Inertia

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Using Search The feature Edit / Search can be useful when looking for specific elements. There are several properties to search for, such as Color, Type or Name. When using Name, it is possible to search for elements other than geometrical items, e.g. Constraints.

Figure 66: The Search dialog box

Taking pictures of elements CATIA offers a feature to take pictures of 3D models. Therefore Tools / Image / Capture has to be selected. A toolbar appears. The Options Icon opens a setup window.
Figure 67: The Capture Toolbar

To take the picture, the Capture button has to be picked. A preview of the image is shown. It can be saved by clicking the Save as icon.

Figure 69: The setup window (Options)

Figure 68: The Capture Preview

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Example 8: Clevis
Intention: Design of simple solid bodies

Figure 70: Clevis

Example 9: Lever
Intention: Design of simple solid bodies

Figure 71: Lever

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Example 10: Prism piece
Intention: Design of simple solid bodies

Figure 72: Prism Piece

Example 11: Sleeve
Intention: Design of simple solid bodies

Figure 73: Sleeve

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Example 12: Prism with threaded holes
Intention: Design of simple solid bodies

Figure 74: Prism with threaded holes

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6.3. Dress-Up Features
The Dress-Up Features are used to implement constructive modifications on existing solids, such as Chamfers, Fillets or Draft Angles. By means of an example these features are explained in detail.

Example 13: Angle piece
Intention: Using the Dress-Up Features Two Pads, rectangular to each other positioned, serve as a basis for this example. The first component measures 100 x 80 x 20 mm and is placed in the yz-plane. The second component measures 60 x 60 x 20 mm and is positioned in the xz-plane.

Figure 76: Sketch of the first Pad

Figure 75: First Pad

Figure 78: Sketch of the second Pad

Figure 77: Creation of the second Pad

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The feature Fillet After having selected the button Edge Fillet, a dialog box specifies the fillet, prompting the Radius, the Propagation and, if desired, Limiting Elements (menu More). It is possible to fillet more than one edge at once. When trying to fillet three or more edges that concur in an acute angle, the sequence of the filleting does indeed make a difference. It has to be stated, that the result depends on the order of the filleted edges. Generally it is better to apply the fillets with bigger radii first.

The submenu Fillets provides features for creating fillets with variable radii, between two faces or defined by three tangent faces. The angle piece has to be supplied with fillets with R=10mm on the inner edges and a fillet with R=5mm on the vertical edge. The Specification Tree shows the newly created Fillets beneath the Pads.

Figure 79: Creating a Fillet

Similar Fillets can be generated by use of the function Variable Radius Fillet. The according radii have to be defined in a dialog box.

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To modify the Fillet definition, double clicked the Fillet (in the specification tree or on the solid in the working space) and redefine the values in the dialog box. All single radii can be marked and modified in the definition window.

Figure 80: Defining a Variable Radius Fillet Figure 81: Filleted body

The feature Chamfer Two input options are selectable for the Chamfer definition: - Length and Angle or - 2 Lengths. The Angle is measured from the body surface, the Length is measured from the original edge to the newly created edge of the chamfer. Several edges can be selected to create several chamfers in one step. The feature Chamfer is inserted in the specification tree.

Figure 82: Creating Chamfers

Figure 83: Part with Chamfers

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The feature Draft Angle Draft Angle is used to create slant surfaces on a solid. These drafts are needed for specific production procedures (die-casting, deep drawing, heavy stamping or others); so they are demoulded in predefined directions. The Draft Analysis can check bodies concerning their demouldability.  Annotation: It may be better to create the Draft Angle before filleting the body, because CATIA recognizes two filleted surfaces as one single face and applies the Draft Angle onto the complete surface. In the present example, delete the Fillets before creating Draft Angles. When defining the Draft, the surfaces to be slanted are displayed red. The Neutral Element is displayed blue and represents the section where the original dimension of the body (e.g. the thickness of the body) is preserved. The demoulding direction is displayed with a red arrow. Various parameters can be defined in the dialog box, such as Draft Angles and options for the Propagation or Limitations.

Figure 84: Part without Fillets

The submenu Drafts contains miscellaneous definition options.

Figure 85: Draft Definition

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Figure 86 shows the body including the Draft Angles and the Fillets.

Figure 86: Part with Drafts and Fillets

Checking the Draft (Draft Analysis) To check the Part regarding its demouldability, the Draft analysis is the suitable feature. The icon can be found in the Analysis toolbar. Before picking it, the view mode has to be switched to Shading with Material. The Compass button in the dialog box has to be selected. Now, the compass can be drawn with the mouse to a surface normal to the desired demoulding direction. Additionally, the element to analyse has to be selected. This results in a colour coding, according to the predefined settings. Figure 87 shows the
Figure 87: Draft Analysis

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analysis results of the drafted angle piece. As the check direction corresponds with the draft direction, it is demouldable. This is shown by the green colour, which identifies all surfaces that feature an angle of 1 degree or more to the demoulding direction. Surfaces with 0 degrees are displayed blue, and those that have less than 0 degrees are displayed red.

Figure 88: Surfaces that are not demouldable with respect to the given direction

The feature Shell Shell is used to hollow out bodies. The definition of the Shell requires the thickness (inside and outside) and the Faces to Remove. CATIA V5 generates an open shell element from the surface definition of the basic body, taking into account all geometry information.

Figure 89: Defining a Shell

Figure 90 shows the hollowed out body with a wall thickness of 5mm.
Figure 90: Shell element

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Feature Thickness Thickness adds or removes thicknesses on one (or more) faces, resulting in new boundaries parallel to the original body boundaries (e. g. for creating allowances). Different faces can be defined with different thicknesses. Modifications of dimension figures are carried out by simply clicking on them.

Figure 91: Applying the feature Thickness

The features are displayed in the Specification Tree. They can be modified, deleted or copied in the Specification Tree.

Feature Thread

Figure 93: Part with Thickness

The feature Thread / Tap resembles the subfeature of Thread definition within the Hole menu. Unlike the latter, this feature allows the creation of taps. The Threads / Taps are specified by defining the Lateral Face, Thread Depth and the nominal Thread Diameter.

Figure 92: The Thread definition box

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Example 14: Bearing block
Intention: Application of Dress-Up Features

Figure 94: Bearing block

Example 15: Angular prism
Intention: Part Design

Figure 95: Angular prism

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Example 16: Angle anchor plate with holes
Intention: Part Design

Figure 96: Angle anchor plate with holes

Example 17: Machined part
Intention: Part Design

Figure 97: Body

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6.4 Transformation Features
Transformation operations can be performed on bodies or parts of bodies, using the Transformation Features.

Translation, Rotation, Symmetry: Translates, rotates or mirrors (without duplicating) bodies. These features are able to transform the selected solids without displacing their basic geometry (sketches etc.). Otherwise, design elements can be positioned using the compass or 3D Constraints.

Figure 98: Starting a Transformation Feature (Translation, Rotation or Symmetry)

Mirror: This symmetry function is duplicating the original mirrored element. It can be used to mirror either bodies or parts of bodies. Therefore, the geometry should be set active (or marked) in the specification tree BEFORE selecting the Mirror button.

Figure 99: Mirroring a Pad

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Patterns: The Pattern features (Rectangular Pattern, Circular Pattern and User Pattern) enable the duplication of design elements using special positioning definitions. The Rectangular Pattern Definition requires two translation directions, the according Instance number and the Spacing. Parameters offers several options for the input. The Reference Element defines the translation direction, the Object to Pattern is the element that is duplicated. The second direction is defined in a similar way.

Figure 100: Rectangular Pattern Definition

The dialog box of the Circular Pattern requires the Instance number, the Angular Spacing and the definition of a Reference Element defining the rotation axis. Crown Definition offers more input options concerning a pattern in radial direction.

Figure 101: Circular Pattern Definition

The feature User Pattern Definition supports the individual definition of the duplication of geometrical elements. To define the positions, a sketch can be created, containing anchor points.

Scaling:
Figure 102: User Pattern Definition

This feature scales elements to the specified dimension. Scaling can be carried out with respect to a point or a direction (line or normal to a plane).

Figure 103: Scaling Definition

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Example 18: Drilled Panel
Intention: Transformation Features

Figure 104: Drilled Panel

Beispiel 19: Angle bracket
Intention: Transformation Features

Figure 105: Angle bracket

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Example 20: Asterisk shaped bracket
Intention: Transformation Features

Figure 106: Asterisk shaped bracket

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7 Part Design with several Bodies and Boolean Operations
The creation of complex bodies is supported by logic connection of Bodies. The logic operations (Boolean Operations) concern two bodies. The first body has to be active (Define in Work Object) and serves as a basic element. The second body affects the first one and is integrated in the first body in the Specification Tree.

Figure 107: Inserting a new Body

A new body can be inserted in the Specification Tree using Insert / Body. The new body is set the In Work Object automatically. The two Bodies are considered independent elements; one can be edited without affecting the other. The Bodies can be switched to the noshown space autonomously, for instance.  Annotation: Modifications are carried out at the active body. Bodies can be activated by double clicking the desired branch of the specification tree (for features as Figure 108: Part containing two Bodies Sketch, Pad, …), or by picking the element with the right mouse button and selecting Define in Work Object (for Bodies). 71

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When clicking on an element with the right mouse button and picking Properties, user defined setting can be adjusted, such as renaming the design elements, changing the graphic representation or retrieving the object status.

Figure 110: Defining the In Work Object

Figure 109: Properties dialog box

7.1 Boolean Operations
The Boolean Operations are accessed via the pull down menu Insert / Boolean Operations or the toolbar Boolean Operations.

The features can be divided into three groups: adding subtracting or intersecting
Figure 111: Accessing the Boolean Operations menu

independent bodies.

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This example uses two Bodies. Figure 113 shows the result of a Remove operation; Body 2 has been removed from Part Body. Body 2 is integrated into the Part Body in the Specification Tree. The following figures show miscellaneous Boolean Operations; all of them have been carried out using the same boundary conditions (PartBody as In Work Object and Body 2 marked).

Figure 113: Result of Removing Body 2 from PartBody

Figure 112: Result of Adding PartBody and Body 2

Figure 115: Dialog box of the Remove feature

Figure 114: Result of Intersecting PartBody and Body 2

The features Assemble, Union Trim and Remove Lump are exemplified in the following examples.

 Annotation: CATIA regards the PartBody as the ‚first’ basic body. It can be modified using construction features, but the PartBody cannot be removed. Therefore it is important to consider the structure of the specification tree, especially for more complex parts. The PartBody can be changed: Select the Body that should be defined the new PartBody with the right mouse button and select Body.x / Change Part Body. The following example is going to show how to use Boolean Operations.

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Example 21: Piston of a two-stroke engine
Intention: Part Design including several bodies and Boolean Operations

Figure 116: Piston of a two-stroke engine

Figure 118: 3D views of the piston

Figure 117: Specification tree of the piston

A piston of a 175 ccm two stroke engine has to be designed. The two ring grooves are needed for the compression rings. The piston-pin bearing’s diameter measures 15mm. For simplification reasons the grooves for the piston-pin retainers, the piston-ring retainers and the draft angles of the piston were disregarded. The dimensions of the piston are defined in Figure 116. 74

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The Specification Tree shows that the part is built from three bodies: Outer Contour Inner Contour Piston-Pin Bearing Support The Outer Contour represents the outline of the piston. It can be created using the feature Shaft. The inner contour consists of two bodies. The body Inner Contour consists of a Shaft, the Piston-Pin Bearing Support is a Pad. The body Piston-Pin Bearing Support is being removed from the Inner Contour using the Boolean Operation Remove. It is commended that the Fillets be created as soon as possible, i.e. just after the Boolean Operation. The Inner Contour is removed from the Outer Contour. At last the Hole for the Piston Pin is applied (feature Hole) and mirrored.

Figure 119: Creating the Outer Contour

Of course other design strategies are possible. The example above shows a way that uses Boolean Operations to create a Part from several Bodies.  Annotation: When designing a part that should be suitable for production, it is advantageous to design the outlines of the cast part and the machining separately. For the piston this strategy would result in an Outer Contour containing the draft angle and allowances. The machining is created in a body containing the final contour and the holes. One advantage of this strategy is the 3D model of the cast contour that can be directly accessed. The Machining body can be inactivated and the cast contour can be used as basis for the NC programming of the manufacturing machine for mould building.

Figure 120: Inner Contour of the piston

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Example 22: Conrod
Intention: Part Design

A conrod for a two-stroke engine has to be designed according to the drawing above. As displayed in the Specification Tree, the symmetry of the part can be considered. Special attention has to be paid to the fillets and the draft angles. (Annotation: The conrod is machined at the bearings and at the side contact faces of the bearings.)

Figure 121: Specification tree of the conrod

Figure 122: Conrod

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8. The Specification Tree in Part Design
The Specification Tree contains all elements of the actual Part. Not only the geometrical elements, but also the coordinate systems and constraints are shown. The levels are marked by vertical lines. The sub trees can be opened or closed in different ways, either by clicking on the nodes (+) or (-), or with the feature Tree Expansion in the pull down menu View. When clicking on a branch of the Specification Tree, the tree can be edited and the Part itself is shaded dark. Clicking on a branch again reactivates the Part. The active element of the Part is underlined in the Specification Tree (Figure 123: Sketch.1).To activate another element, click on it with the right mouse button and choose Define In Work Object. To hide (or show) the Specification Tree, hit the F3-button.

Figure 123: Specification Tree

Figure 124 displays the Specification Tree of the conrod, showing a typical structure of a simple Part in CATIA V5. The conrod is built from a basic Body (Pad.1) that is modified using Pockets and Holes. The Dress-up Features Draft and Edge Fillet complete the part, which represents one half of the conrod. At last it is duplicated using the Transformation Feature Mirror.

Figure 124: Specification Tree of the conrod

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The input parameters of the single elements can be modified by double clicking them. To change Sketch.1 for example, double clicking it opens the sketch mode. The modifications of the sketch are applied to the element automatically after leaving the Sketcher. Similarly, the parameters of all features and operations can be changed. Figure 126 shows the dialog box that appears after double clicking Pocket.1 in the Specification Tree. The according feature is activated ( underlined in the tree) and the definition window opens. CATIA changes the display mode of the body and shows the modifiable parameters.

Figure 125: Modifying Sketch.1

Figure 126: Modifying Pocket.1

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A Part consisting of several Bodies, connected e.g. via Boolean Operations, can be modified by accessing the Specification Tree that offers a well structured overview of the build-up. Figure 127 shows the Specification Tree of a piston. The part is structured in a basic Body (Outer Contour) and a removed Body (Inner Contour). The two Bodies are connected with the Boolean Operation Remove.3.

Figure 127: Piston

After activating the removed Body (Inner Contour), only the elements of the active branch of the tree are displayed. The buildup of the Inner Contour (it consists of two Bodies as well) can be seen. Activating the Part step by step in the Specification Tree offers a helpful overview of the construction and enables quick comprehension of the structure and easy modification of parameters when editing the part. CATIA V4 used the feature Smart Solid to analyse the Specification Tree and the Part structure. In CATIA V5, this feature has been integrated in the Specification Tree, offering the possibility to set single elements In Work.  Annotation: The display mode of elements that are activated in the tree can be set by use of the button Only Current Body in the Tools toolbar. If this option is activated, only the active body is displayed; otherwise all bodies are visible. This option can also be set in the pull down menu Tools / Options / Infrastructure / Part Infrastructure / Display / Display in Geometry Area / Only the current operated Solid or Only the current Body.  Annotation: Specific component adjustments can be set by clicking on the Specification Tree with the right mouse button. The Properties menu allows several options, such as switching elements from / to the noshown space (Hide / Show), rename an element or change its appearance. (See chapter 5.3 Structure of the specification tree of a sketch.)  Annotation: Objects can be moved within the Specification Tree by picking them with the right mouse button and selecting Object X / Reorder. The dependencies of the moved objects have to be considered.

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Example 23: Prism body
Intention: Part Design

Figure 128: Prism body

Example 24: Pendulum
Intention: Part Design

Figure 129: Pendulum

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Example 25: Adjusting wheel
Intention: Part Design

Figure 130: Adjusting wheel

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9 Creating assemblies in the workbench Assembly Design
The workbench Assembly Design is used to integrate several construction elements (Parts or Products) into one Product. Thus, a Product specifies the assembly of components that are positioned according to user requested constraints. The workbench is activated by calling up a new Product in the List of Types window (pull down menu File / New).

Figure 132: Creating a new Product

This chapter treats the most frequently used basic features of Assembly Design. They are subsequently exemplified in a simple example. The Figure 131: The Assembly Design workbench Product generation represents the basis for further CATIA V5 tools, such as the features in the DMU (Digital Mockup) workbench.

9.1. Operations in the Assembly Design mode
9.1.1 Product Structure Tools Component ... Inserts a new Component in the selected Product Product ... Inserts a new Product in the selected one Part ... Inserts a new Part in the selected component Existing Component ... Inserts an existing component in the selected one Existing Component With Positioning ... Inserts an existing component in the selected one and launches a command to position it Replace Component ... Replaces a component by another existing one Graph Tree Reordering ... Changes the order in the Graph Tree of the children of the selected component Generate Numbering ... Generate a number on all components owning a representation Selective Load ... Select instances of the Products which must be loaded 82

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Manage Representations ... Fast Multi Instantiation ...

Manages the representations of the selected component Define and create multi instantiations

9.1.2 Constraints The four constraints Coincidence, Contact, Offset and Angle are used to position components to each other. To fix the Product in space, one component can be fixed using Fix Component.

Coincidence Constraint …

Create a coincidence constraint between two components of the active component Contact Constraint … Create a contact constraint between two components of the active component Offset Constraint … Create an offset constraint between two components of the active component Angle Constraint … Create a coincidence constraint between two components of the active component Fix Component ... Fix the component position in the active component Fix together ... Create a relation between the selected components which fix their relative location Quick Constraint ... Automatically constraints the selected components Flexible / Rigid Subassembly ... Allows to overload position of child components of the product instance Changes the type of the selected constraint Change constraint ... Reuse pattern... Reuse pattern feature of a part to instantiate a component

9.1.3 Move The toolbar Move is used to position single components of a product in space without using Constraints. The dialog box of the feature Manipulation shows possible ways of moving and rotating components along / around the x, y and z axis or user defined axes. If some constraints have already been defined, they can be taken into account using With respect to constraints.

Figure 133: Dialog box of Move a component by the Manipulation feature freehand translation or rotation with the mouse Snap ... Move a component onto another component by snapping Explode ... Creates a 3D exploded view Stop manipulate on clash ... Stop manipulation when a clash occurs

Manipulation ...

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9.1.4 Space Analysis The features Clash, Sectioning and Distance and Band Analysis enable a check of components in a Product concerning their relative position. The dialog box Clash offers options for the type of interference (Contact+Clash, Clearance+Contact+Clash, Authorized Penetration, Clash Rule) and the affected components.
Figure 134: Clash dialog box

The feature Sectioning is available for quickly creating sections of a Product. A plane is needed to define the section, which is displayed in an additional window. The section can be exported in different file types (e.g. dxf, igs, etc.). Additionally, the definition can be modified later on.
Figure 135: Sectioning Defintion window

The feature Distance and Band Analysis can be used to measure distances between components. The definition box enables the input of the Accuracy and the desired distance orientation.

Figure 136: Distance and Band Analysis definition

9.1.5 Update The set constraints are realized in the Product after Updating the Product or parts of it. Parts that have been manipulated manually without consideration of constraints are reset to the position defined by the constraints when updated. After having modified the specification tree, the Product has to be updated as well.  Annotation: Similar to other design modes (Part Design, Drafting), the properties menu, activated by right-clicking the Specification Tree, contains helpful features such as Hide / Show and other component specific definitions.

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9.2. The Specification Tree in Assembly Design
In a Product Specification Tree the components of the assembly (which can be mainly Parts or Products) are displayed according to their order. The actually active branch is marked blue. Additionally, the defined Constraints are shown in the according layer in the tree. In case Parameters (Formulas or Design Table) have been used, they are shown in the tree as well as Applications, such as Kinematics, Generative Structural Analysis or other modules. Via the Specification Tree it is possible to change from Assembly Design directly to Part Design. Therefore the respective Part has to be set In Work. The according branch in the tree is marked blue and the menu environment of Part Design is shown. By activating the whole Product, it is possible to get back to the Assembly Design workbench again. This method of quick switches between the single workbenches makes designing in Products simple and effective, because it enables easy modifications of Figure 137: Specification Tree of a Product Parts. Nevertheless it is necessary for the designer to consider the influences of modifications of Parts on the Product. Otherwise problems can occur concerning the positioning or definition of construction elements, especially, if Formulas are used to connect single elements. The properties window (right mouse button; similar to the one in Part Design) contains some helpful design and definition features, such as defining In Work Objects. With the properties window of a Product, a new component can be inserted in the assembly using the feature Components.
Figure 138: Editing a Part Figure 139: Inserting a new component

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9.3.

The Desk in CATIA V5

The Desk shows all links of an assembly, as there are links to Components, Design Tables or external objects that have been inserted. If there have been deduced Drawings, these links are displayed as well (if the Drawings are actually open).

Figure 140: The Desk window

The pull down menu File is used to activate the Desk. The user interface of the Desk (Figure 140) shows the link structure of the Specification Tree on the left side. The assembly consists of 2D Drawing (Drawing1.CATDrawing) and a Product (Crankdrive_1.CATDrawing); which itself consits of the components Piston two stroke, Crankshaft, Bearing support, Conrod and a subassembly (Crankdrive_1_a). The subassembly Crankdrive_1_a accesses, like the Product Crankdrive_1, the four Components. By pressing the right mouse button, the property window of the component link can be opened (feature Links). This feature enables a removement, creation or refreshment of links.
Figure 141: The Links window

 Annotation: If cross linked files of CATIA assemblies are copied into other folders, the links have to be reassigned. This process is done in the Desk. CATIA automatically recognizes the components only in case the file x.CADProduct is in the folder of the linked components. 86

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Example 25: Crank drive
Intention: Create an assembly An assembly has to be created from the following components:  Piston (Piston of a two stroke engine, Example 21)  Conrod (Example 22)  Crankshaft  Bearing support The Crankshaft and the Bearing support have to be designed according to the two Drawings:

Figure 143: Crankshaft

Figure 142: Bearing support

Figure 145: Crankshaft

Figure 144: Bearing Support

After opening a new assembly (File / New / Product), the four existing Parts can be inserted using Existing Component. This feature can be activated either by the properties menu (right mouse button) Components, by the pull down menu Insert or by activating the according button in the Product Structure Tools toolbar.

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CATIA positions the inserted components according to their location regarding the coordinate systems in the Part structure. The four Parts can be seen in the Specification Tree. If nothing else is specified, CATIA labels the components in order of their insertion. The properties window allows a renaming of the elements.

Figure 146: Product with the unconstrained but renamed Parts

For improving clarity, the components can be moved roughly to their final position with Move / Manipulation. The precise positioning defining Constraints. is done by

First the Bearing support should be fixed in space as a reference. The next Constraints are applied to the Crankshaft which has to be positioned relative to the Bearing block using a Coincidence Constraint (axis of the Crankshaft and axis of the Bearing block).
Figure 147: Roughly positioned assembly

After activating the feature Coincidence Constraint, CATIA recognizes the axis when clicking on the cylinder surfaces. The selected items are marked red.

Figure 148: Using the Coincidence Constraint on two axes

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By pressing Update, the Crankshaft is moved to the desired position, according to the constraints. The Conrod has to be connected to the crankpin with a Coincidence Constraint and an Offset Constraint. In the Offset input window the distance (Offset) between the two elements and the Orientation have to be set. As Supporting Elements Planes, Points, Surfaces etc. are suitable. The degrees of freedom of the positioned Conrod can be viewed by choosing Conrod.1 object / Component Degrees of Freedom in the properties window.
Figure 149: Dialog box of the Offset Constraint

As the Crankshaft is still rotating around the crankpin axis and relocatable in direction of this axis, the Conrod has four degrees of freedom, which are displayed in the appropriate window. Those degrees of freedom are to be reduced.

Figure 150: Analysis of the degrees of freedom

Figure 151: Complete assembly

The piston-pin bearing is connected with the upper Conrod bearing using a Coincidence Constraint and an Offset Constraint. The Piston itself is positioned in the Cylinder with a Coincidence Constraint of the two axes (Piston and Cylinder). Figure 151 shows the completely constrained assembly. The Crankshaft, the Conrod and the Piston still have one degree of freedom each, which results in a movable crankdrive. The Constraints are displayed in the Specification Tree and in the design area; they can be switched to noshown space, if desired. 89

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When activating the feature With respect to constraints in Manipulation, the assembly can be moved with respect to its constraints.

Figure 152: Rotating the Crankdrive using Manipulation / With respect to constraints

The feature Explode enables a quick generation of exploded views.

Figure 153: Creating an exploded view

Challenge: There is one error within this example which can be detected when carrying out a clash analysis. 90

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Example 26: Clamping device
Intention: Create an assembly

Figure 154: Clamping device

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10 Excerpt of data management
CATIA V5 provides several other data formats apart from the standard CATIA files. This can be useful when exporting data to other CAD software. Different ways of data export are treated in the course of this chapter. Data import can be carried out as well; the specific case of importing CATIA V4 data is an important topic which will be explained too. The basic settings for data import and export can be adjusted in Tools / Options / General / Compatibility.

10.1 Exporting 3D data
Most of the 3D data can be transformed into the desired format by simply saving the element (File / Save as) with the according extension.

Figure 155: Saving options for a Part

The following listing describes some of the most frequently used formats for Parts and Products.  cgr … The cgr format includes simplified geometry data and can be used as a memory efficient way to handle complex elements in CATIA, especially for DMU applications. The cgr files cannot be opened in CATIA by simply selecting File / Open, but they have to be inserted in a product using Components / Existing Component. 92

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stp … Step files of CATIA V5 Products still contain the Product structure. They are set up from volumes, points and surfaces. As with the other formats, the build-up of the parts can not be retrieved, i. e. the volumes can be viewed but not edited (The geometry information is without “history”.). The Step files can be opened via File / Open. igs … These files consist of points and surfaces. They can be opened similar to the Step files. The geometry information is without “history”.

10.2 Exporting 2D data
2D data such as drawings can be exported as well. Common formats are:  dxf  dwg They are both vector graphics.

10.3 CATIA V4 data
Importing and exporting CATIA V4 data to and from CATIA V5 requires special methods. Converting CATIA V5 data to CATIA V4: To convert V5 data into data usable for V4, the operation File / Save as can be used. For Parts the format option model has to be used, for Products the appropriate format is session. Converting CATIA V4 data to CATIA V5: This conversion can be done in different ways. A simple way is to open the V4 files using File / Open. This possibility, being the quickest one, has a drawback: The elements can be viewed, but not modified as the build-up information is enabled. The same characteristics apply to V4 elements that have been inserted in a Product via Components / Existing Components. Therefore V4 elements inserted like this are suitable for DMU analyses. An alternative way is to open V4 elements with File / Open and copy the specification tree (MASTER). The tree has to be inserted into an existing CATIA V5 Part. If the V4 data is to be modified later on, it has to be converted using a special tool which can be accessed with the menu Tools / Utility / Migrate V4 to V5. An alternative way is to open the V4 element with File / Open and copy the specification tree (MASTER). The tree has to be inserted into an existing CATIA V5 Part.

10.4 File administration
Save management: The Save Management enables a selective saving of CATIA elements. This option is useful, especially when working with Products. The menu File / Save Management opens a dialog box. The State column shows whether an element is modified or not. 93

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By marking an element and selecting Save, it is marked to be saved. Independent saves can be enabled by clicking the according button; this feature deactivates saves that are caused by other saves. After clicking OK, the preselcted items are saved automatically.

Figure 156: The Save Management window

Send To: To transfer data to another directory or to other data media, the feature File / Send To can be used. By using this function, the file structure can be preserved, which means that the moved elements keep their relations. Desk: The Desk (File / Desk) graphically displays the links between the single elements (see page 86). CATDUA: CATIA provides a check and clean program for erroneous files named CATDUA. It can detect errors and, if possible, mend them. To activate it, the menu Tools / Utility / CATDUAV5 can be used; alternatively, CATDUA can be opened by rightclicking the selected element on the Desk.

10.5 Publication

Figure 157: CATDUA

Making elements available to other users can be done by publicating them. When using the assembly design mode, this can be quite useful. To publicate elements, choose the menu Tools / Publication. 94

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11 Creating drawings in the workbench Drafting
The Drafting mode in CATIA V5 enables the generation of 2D drawings. In principle all 2D views, sections, unfolded views, details etc. are connected with the 3D design elements. Additionally to deriving drawings from 3D data, CATIA allows the creation of independent 2D geometries. The Drafting mode can be activated by either opening a new drawing (File / New / Drawing) or by selecting the workbench Mechanical Design / Drafting in the Start menu. The definition window of the new drawing offers options for the Standard, the Sheet Style and Size of the drawing and the Scale. The user interface of the Drafting mode is similar to the one in the 3D design mode. In the center the worksheet is positioned, the Specification Tree can be found on the left side, the toolbars are arranged Figure 158: Definition box of the around the worksheet. drawing The manipulation features that can be carried out with the mouse buttons correspond to the ones in the 3D design mode. When pressing and holding the middle mouse button, the moving mode is active. After clicking the left mouse button once, the zooming feature is activated. The Specification Tree can be hidden by hitting the F3 button. If more than one sheet has been inserted in the drawing, it is possible to switch between the sheets by means of the bar at the top Figure 159: The Drafting workbench of the worksheet (‘Sheet.1’) or by selecting the sheet in the Specification Tree. To control the operations, the pull down menu Insert or the toolbars (they are set up in the menu View / Toolbars) can be used. An excerpt of the most important toolbars is shown subsequently.

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11.1. Operations in the Drafting workbench
11.1.7 Drawing

New Sheet, New Detail Sheet ... New View ... Instantiate 2D Component ...

Creates a new sheet

Creates a new (empty) view Creates a 2D component instance

11.1.8 Views

Create views: Different views can be selected: Front View, Unfolded View, View from 3D, Projection View, Auxiliary View, Isometric View, Advanced Front View Sections: Different directions of sectional drawings can be selected: Offset Section View, Aligned Section View, Offset Section Cut, Aligned Section Cut Details: Detail views can be created: Detail View, Detail View Profile, Quick Detail View, Quick Detail View Profile Clipping View: Create a Clipping View with a circle or a profile as callout: Clipping View, Clipping View Profile Broken View, Breakout View View Creation Wizard: Different view options can be selected 11.1.9 Dimensioning Dimension modes: Distance, Angle, Radius, Chained Dimensions etc. Technological Feature Dimensions Reroute Dimensions, Create or Remove Interruptions Datum Feature, Geometrical Tolerance 96

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11.1.10

Generation

Automatically create dimensions and balloons: Generate Dimensions Generate Dimensions Step by Step Generate Balloons

11.1.11

Dress-up

Create center lines, axis lines and threads in views or sections: Center Line, Center Line with Reference, Thread, Thread with reference, Axis Line, Axis Line and Center Line Area Fill ... Fill a selected contour

11.1.12

Geometry Creation

2D sketches can be created using the Geometry Creation features. They are to be used similar to the tools in the sketch mode. Point creation features Line creation features Definition of circles and ellipses Create profiles and polygons Create splines, connecting curves and conic sections

11.1.13

Geometry Modification

Corner, Chamfer, Trim, Break, Quick Trim, Close, Complement … Manipulation features for 2D geometry Mirror, Symmetry, Translate, Rotate, Scale, Offset … Duplication and modification tools Geometrical Constraint, Constraints Defined in Dialog Box, Contact Constraint … Define Constraints 97

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11.1.14

Annotations

The toolbar Annotations can be used for inserting text, surface specifications, welding symbols and tables. Text, Text with Leader, Text Replicate, Balloon, Datum Target, Text Template Placement Roughness Symbol, Welding Symbol, Weld Table, Table from CSV

11.2 The Properties Window
For creating a 2D drawing, the Properties Windows of the dimensions are important tools. The windows are activated by right-clicking the regarding dimension and selecting Properties. The Properties Window contains several settings, definitions and additional features. Feature Properties ... Allows renaming of the dimension and shows the creation date Graphical properties Value orientation, format, precision, fake dimension, etc. Different options for tolerance values Graphical formatting of the dimension line

Graphic ... Value ...

Tolerance ... Dimension Line ...

Figure 161: Properties window of a dimension

Extension line ...

Graphical formatting of the dimension line Dimension Text ... Enables the input of text to the dimension Font ... Formats the font size, type and style Text ... Text settings
Figure 160: Dimension Text menu

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11.3. Basic steps for the creation of a dimensioned 2D drawing
By means of a simple example, the basic steps for creating a 2D drawing are shown. A drawing has to be deduced from a simple body. It should contain three basic views and a section view. Additionally, the drawing has to be provided with dimensions.

Figure 162: 3D Part

After opening a new file Drawing.1, a DIN A4 sheet is selected in Portrait orientation. The 3D Part is still open in background. The feature View Creation Wizard can be used to select the desired views that should be displayed.
Figure 163: The Drafting workbench

The View Wizard provides assistance for configuring the views.

Single views can be created using the feature Front View. After determining the desired views, a geometrical element has to be chosen in the according 3D editor. That’s how to link a 2D Drawing and a 3D element. Right after clicking the geometrical element in 3D, CATIA switches back to Drafting mode and displays a preview of the views.
Figure 165: View Wizard Control Figure 164: button

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By means of the control button the views can be rotated. To finish the view creation, a click on the drawing sheet or on the middle of the control button settles the views. Based on the defined views, a section view of the body can be created.

The feature Offset Section View enables the selection of the section profile. The section profile can be drawn by clicking the single points of the line with the left mouse button and finishing it is done by double clicking. The section is displayed according to the profile line. The single views are bordered with a broken line. All objects contained in the drawing are displayed in the Specification Tree. The object to be activated can be set active using Activate
Figure 166: Different views of a Pad with Hole

View (right button).

mouse

Figure 167: Specification Tree of a Drawing

Dimensioning is applied using the manifold features contained in the Dimensioning toolbar.

A text can be inserted by means of the toolbar Annotations.
Figure 168: Drawing containing dimensions and text

 Annotation: All operations, such as Dimensioning, Text, inserted profiles etc. are added to the active object. Therefore, inconveniences may occur when objects are edited without being active.

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Apart from the standard format CATDrawing, the drawing can be saved in several other exporting formats. Frequently used formats such as dxf- or dwg- can be used to import data to other CAD or CNC programs.  Annotation: Objects like frames or title blocks can be inserted via the feature File / Page Setup / Insert Background View.

Figure 169: Saving options for a Drawing

Additional helpful functions: Auto dimensioning (Function Generation) View positioning (in the context menue of the right mouse button) Properties in the context menue of the right mouse button Changing between working views and the background (in the pull down menue Edit) Toolbar Geometry Creation Toolbar Text

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12 Create and use Parameters
Formula
Mathematical relations between parameters can be created and edited using the feature Formula. The corresponding dialog box can be opened with the menu Tools / Formula or the button Formula (toolbar Knowledge).

Figure 171: The Knowledge toolbar

The menu Formula lists all parameters used in the actual element. To enhance the overview, filters can be used to show only special parameter types. Figure 172 shows all Length parameters of a simple body.

Figure 170: Starting the Formula editor

When choosing Import, data from external programs can be integrated. New, user defined, parameters are inserted / deleted with New the feautres Parameter / Delete Parameter. The features Add Formula and Delete Formula enable the mathematical connection between the listed parameters. Activating Add Formula opens an additional window for the input of the desired formula. The parameter that has been marked afore is defined through the formula.
Figure 172: The Formula dialog box

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The solid body shown above measures 100 x 70 x 50 mm. The according parameters have been assigned automatically by CATIA. width: `PartBody\Pad.1\Length` ... 50 mm length: `PartBody\Sketch.1\Offset.6\Offset` ... 100 mm height: `PartBody\Sketch.1\Offset.8\Offset` ... 70 mm The parameters can be renamed by simply selecting them and modifying the name in the input line. Figure 173 shows the parameters that have been renamed from the default values to user defined names for width, length and height. Additionally, the length and the width should be linked in such a way that the Pad is three times as long as it is wide.

Figure 173: Formula editor with renamed Parameters

The parameter length has to be marked, the Formula editor opened and the parameter width is to be double clicked. Now the formula length = width*3 can be set and OK can be picked. Therewith the desired relation is active and displayed in the Formula column.
Figure 174: Entering a Formula

Figure 175: The Formula is displayed and set active

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The dependency of the length from the width is displayed in the Formula window next to the value, and in the Specification Tree in the Relations branch. Double Clicking the relation in the Specification Tree opens the Formula editor. (To show the Relations branch in the tree, the according setting in Tools / Options / Infrastructure / Part Infrastructure / Display have to be adjusted.)
Figure 176: The Specification Tree, including the Formula

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