CATIA Tutorial Advanced Surface Design Theory Part1of7

7/21/2019 CATIA Tutorial Advanced Surface Design Theory Part1of7

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ontents

Sketcher

1 1

LESSON: Changing Sketch Position

1 1 1

Introduction .

1.1.2

hange Sketch Support

1.1.3

Positioned

1.1.4 Sliding

1

5 Isolated . .

1.1.6 Procedure.

1

7

Sequence: Example

8

Move geometry . . .

1.2 LESSON: Toolbar Profile Spline

1 2 1 Introduction .

1.2.2

Spline

icon .

1.2.3 Changing a

Spline . . . .

1.2.4

Spline Definition

panel A

1.2.5

Spline Definition

panel B

1.2.6 Spline with tangents

1.2.7

Spline

with tangential

continuity

1.2.8

onnect

icon

1.2.9 Selecting elements

1.2.10

onnect with an arc

1.2.11

ontinuity in point .

1.2.12

ontinuity tangency

1.2.13

ontinuity

curvature .

1.2.14 The

onnect urve Definition

panel

1.2.15 Richtungspfeile bei

ontinuity tangency

1.3 LESSON: Toolbar Profile Conic

1 3 1 Introduction

1.3.2 Subtoolbar

onic

1.3.3 Ellipse .

1.3.4 Parabola by Focus

1.3.5 Hyperbola by Focus

1.3.6 Overview of conic sections

.3.7

onic Sketch tools

. . . .

1.3.8 Conic section with two end tangents

1.3.9 Conic section with tangential intersection

1.3.10 Conic section with one end tangents

1.3.11 Conic section with 5 Points

1.3.12 The

onic urve Definition

panel

1.3.13

Parameter . . . . . . . . .

3 4TIPPS .

1.4 LESSON: Toolbar Profile Point

1 4 1 Introduction

1.4.2 Subtoolbar

Point . . . . .

1.4.3

Point by licking . . . . .

1.4.4

Point by using oordinates

1.4.5

Equidistant Points

1.4.6

Intersection Point

1.4.7

Projection Point

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6

1.4.8 Construction / Standard Elements

1.4.9 TiPPS .

1.5 LESSON: Copy and Paste .

1 5 1 Introduction

1.5.2 Cut/Copy Paste .

1.5.3 Copies of Elements

1.5.4 Copies of Constraints

1.5.5 Copying Sketch Axes

1.5.6 Sequence: Copying Sketch

1.5.7 Sequence: Copying into Another Part Document

1.6 LESSON: Overview Constraints.

1 6 1

Introduction

1.6.2

Constraint

types .

1.6.3 Constraint icons . . . . .

1.6.4

Constraint Constraints Defined

Dialog Box

1.6.5 Design intention

1.6.6 Sketch colors

1.6.7 Reference dimension

1.7 LESSON: Contact Constraint

1 7 1

Introduction .

1.7.2 Function

Contact Constraint

1.7.3 Workbench Association

1.7.4 Usage of

Contact Constraint

1.7.5 Procedure .

1.7.6 Modif ication of

Contact Constraint

1.8 LESSON: Auto Constraint

1 8 1 Introduction.

1.8.2 Purpose .

1.8.3 Procedure .

1.8.4 Repeat Mode .

1.8.5 Sequence: Automatic Dimensioning A .

1.8.6 Sequence: Automatic Dimensioning B .

1.8.7 Symmetry Lines

1.8.8

Constraint Mode .

1.8.9 TiPS .

1.9 LESSON: Animate onstraint

1 9 1

Introduction

1.9.2 Purpose .

1.9.3 Procedure .

1.9.4

Animate Constraint

Panel

1.9.5

Parameters

1.9.6 Actions .

1.9.7

Options .

1.9.8

Hide constraints

1.9.9 Constraints

1.9.10 Kinematic .

1.9.11 TIPS .

1.10 LESSON: Analysis

in

Sketch

1.10.1 Introduction .

1.10.2 Analysis Function


1.10.4 Usage of Analysis

1.10.5

Sketch Solving Status

.

1.10.6 Procedure .

1.10.7

Under Over and Iso Constrained

1.10.8

Sketch Analysis

1.10.9 Procedure .

1.10.1

OGeometry

tab .

1 1 0.11Projections/lntersections tab

1 1

0.12Diagnostic

tab

1 11

LESSON: Measure

in

Sketch

2001-2005 UNICO GmbH

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CONTENTS

1 11 1 Introduction . . . . .

1.11.2 Measure Funct lon .


1.11.4 Usage of Measure

1.11.5 Measure Between

1.11.6 Procedure

1117 Customizing Measure between

1.11.8 Measure .

1.11.9 Procedure. . . . . . .

1.11.1OCustomizing Measure

1.11.11Updating Measurements.

1.12 LESSON: The Tools Toolbar .


1.12.2 Overview . . . . .

1.12.3 Create Datum

1.12.4 Only Current Body

1.12.5 Output features . .

1.12.6 Sketch Solving Status

1.12.7 Sketch Analysis

1

13

LESSON: Methods . . . . .

1 13 1 Introduction . . . . .

1.13.2 Number of elements

1.13.3 Outer and inner contours

1.13.4 Correct

size

. .

1.13.5 Exaggerating sketches.

1.13.6 Sketch outside a solid

1.13.7 Draw elements

apart

1.13.8 Standard points

References

2 1

LESSON: Overview References

2 1 1

Introduction .

2.1.2 Use .

2.1.3 Toolbar and Icons .

2.1.4 Reference Elements

2.1.5 Procedur e.

2.1.6 Skeleton

2.1.7 Derivation

2.1.8 Create Datum

2.1.9 Advantages and Disadvantages

2.1.10 Subsequent Parameterization.

2.2 LESSON: Point General.

2 2 1

Introduction

2.2.2 Application

2.2.3 Point function .

2.2.4 Procedure

2.2.5 Point types

2.2.6 Parameterization

2.2.7 Context enu

2.2.8 Modifications

2.2.9 Isolation

2.2.10 Constraints

2 2 11

Properties.

2.2.12 TIPS

2 3

LESSON: Point Types

2 3 1

Introduction.

2.3.2 Point type

2.3.3 Coordinates

2.3.4

curve

2.3.5 Geodesic Euclidean

2.3.6 Reference Point


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2.3.7 Repeat object after OK

2.3.8 On plane with Planes

2.3.9

plane with Surface

2.3.10 surface .

2.3.11 Circle / Sphere center

2.3.12 Tangent

o

curve .

2.3.13 Between

2.4 LESSON: Toolbar Points.

2 4 1 Introduction

2.4.2 Funct ion.

2.4.3 Usage

2.4.4 Overview .


2.4.6 Point .

2.4.7 Points and Planes Repetition

2.4.8 Creating Points Planes

2.4.9 Panel Points Planes Repetition

2.4.10 Extremum . . . .

2.4.11 Procedure Extremum .

2.4.12 Optional Directions .

2.4.13 Panel Extremum Definition

2.4.14

ExtremumPolar . . .

2.4.15 Procedure .

2.4.16 Creating Polar Extremum .

2.4.17 Panel Polar Extremum Definition

2.5 LESSON: Line General

2 5 1

Introduction .

2.5.2 Application .

2.5.3 The Line Function

2.5.4 Procedure .

2.5.5 Line Types .


2.5.7 Line or urve

2.5.8 Context Menu

2.5.9 Modifications

2.5.10 Isolation

2.5.11

Tree

entry .

2.5.12 Constraints

2.5.13 Properties.

2.5.14 TIPS

2.6 LESSON: Lines Types.

2 6 1 Introduction.

2.6.2 Overview

2.6.3 Point Point

.

2.6.4 Point-point lines

2.6.5 Linked point-point lines

2.6.6

Point Direction

2.6.7 Angle/Normal to curve .

2.6.8 Repetition of Angle/Normal

to

curve

2.6.9 Tangent

to

curve Mono Tangent

2.6.10 Tangent to

curve

BiTangent

2.6.11 Normal

to

surface

2.6.12 Bisecting . . . .

2.6.13 tart End

2.6.14 Up to 1

Up to 2

2.6.15 Length Type

2.6.16 Mirrored extent

2.6.17 TIPS .

2.7 LESSON: Axis .

2 7 1 Introduction

2.7.2 Extracted axes


CONTENTS

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CONTENTS

2.7.3 Procedure .

2.7.4 Reference element

2.7.5 Circles and arcs

2.7.6 Ellipses and elliptical sections.

2.7.7 Long hole .

2.7.8 Rotation and cylindrical surfaces

2.7.9 Tree

entry

2 7 1 0 Properties . . . . .

2 7 11

TIPS .

2.8 LESSON: Plane General

2 8 1 Introduction

2.8.2 Application

2.8.3 Plane Function

2.8.4 Procedure

2.8.5 Plane Types


2.8.7 Context enu

2.8.8 Modifications

2.8.9 Isolation

2.8.10

Tree entry

2 8 11 Constraints

2.8.12 Properties.

2.8.13 TIPS

2.9 LESSON: Planes

Types

2 9 1 Introduction

2.9.2 Overview . . . . .

2.9.3 Offset from plane .

2.9.4 Multiple Parallel Planes

2.9.5 Parallel through point

2.9.6

ngle Normal to plane

2.9.7 Multiple angle planes

2.9.8

Through three points .

2.9.9 Through two lines

2.9.10

Through point and line

2 9 11 Through planar curve

2.9.12

Normal to curve

2.9.13 Tangent to surface .

2 9 14Equation .

2.9.15 Mean through points

2.9.16 TIPS .

2.10 LESSON: Sequential Planes

2 1 1

Introduction

2.10.2 Usage .

2.10.3 Overview .


2.10.5

Repeat object after OK .

2.10.6

Plane System .

2.10.7 Overview

Plane Systems

2.10.8 Planes Repetition

2.10.9

Points and Planes Repetition

2.10.100ptions

2 11

LESSON: Plane System

2 11 1 Introduction

2.11.2 Function. . .

2.11.3 Procedure

2.11.4 Sequence: Plane System

2.11.5 Result .

2.11.6 Panel

Plane System

A

2.11.7

Panel

Plane

System

B

2.11.8 Panel

Plane System

C

2.11.9 Panel Plane System D


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2.11.1

OPlane

System Types

2.11.11Typ: Regular symmetric .

2 11

12Typ: Regular asymmetric

2 11

13Typ: Semi regular

2.11.14Typ: Irregular symmetric .

2 11

.15fyp: Irregular asymmetric

2.11.1 ECreating Semi regular

System

2.11.17Sequence: Semi Regular Plane System .

2.11.18Modifying Semi Regular Plane System.

2.11.1

~ r i x

.

2.11.2OSubsets .

2 11

.21Creating Secondary Subset .

2.12 LESSON: Points and Planes Repetition


2.12.2 Function. . . . . . . . . . .

2.12.3 Procedure. . . . . . . . . .

2.12.4 Sequence: Points planes along open curve .

2.12.5 Result . . . . . . . . . . .

2.12.6 Panel Points and Planes Repetition .

2.12.7 Along Open Curve .

2.12.8 By Point and Direction Open Curve

2.12.9 Between Two Points Open Curve .

2.12.1

GAlong

Closed Curve .

2.12.11By Point and Direction Closed Curve

2.12.12Between

Two

Points Closed urve

2.13 LESSON: Planes Repetition. .


2.13.2 Function. . . . . . . . .

2.13.3 Procedure. . . . . . . .

2.13.4 Sequence: Creating Parallel Planes

2.13.5 Result Parallel

Planes

. .

2.13.6 Sequence: Creating Angled Planes

2.13.7 Result Angled Planes .

2.13.8 Panel Planes Repetition

2.13.9 Reverse Direction

2.14 LESSON: Coordinate Systems


2.14.2 Coordinate Systems

2.14.3 Absolute coordinate systems

2.14.4 Procedure. . . . . . . . . . .

2.14.5 Example of creation of a coordinate system

2.14.6 Display .

2.14.7 Overview of the panel A .

2.14.8 Overview of the panel B .

2.14.9 Origin .

2.14.10X Z axes .

2.14.11X

Z

axis and the context menu

2.14.12Axis rotation .

2.14.13Euler angles

2.14.14Under the Axis Systems node

2.14.15Display modes . . . . . . . .

2.14.1 EChanging coordinate

systems

2.14.171solate .

2.14.18Modifying the definition

2.14.19TIPS .

2.15 LESSON: Toolbar Tools


2.15.2 Overview .


2.15.4 Function Update

2.15.5 Update Settings


CONTENTS

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CONTENTS

2.15.6 Icon

Update

2.15.7 Axis System .

2.15.8 Icon

xis System

2.15.9 Icon

Show Historical Graph

2.15.1

OUsage

of

Show Historical Graph

2.15.11Working

Support .

2.15.12Usage .

2.15.13Work on Support .

2.15.14Non Planar

Working Support

2.15.15Limited working support

2.15.16Panel

Work On Support .

2.15.17Activate and Deactivate .

2.15.18Working

Supports ctivity

2.15.19Snap

to Point

2.15.2CPlane

System .

2.15.21Create

Datum .

2.15.22Advantages and Disadvantages

2.15.23femporary

nalysis Mode .

2.15.241nsert

Mode . . . . .

2.15.251nsert odeSplit and Trim

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3.3.3 ro cedu r e .

3.3.4 Sequence: Example of a

Combine

curve.

3.3.5

Combine

curve type

3.3.6

Normal .

3.3.7 Along directions .

3.3.8

Along directions

context menu

3.3.9

Curve and Curve2

3.3.10 Curve shapes. . . . . . .

3 3 11 Nearest solution

3.3.12 Multi Result Management

3.3.13 TIPS .

3.4 LESSON: Reflect Line .


3.4.2

Reflect Line

Curves.

3.4.3 Procedure .

3.4.4 Example of Reflection

urves

3.4.5 Example Parting Line

3.4.6 Arrow Directions

3.4.7

Support .

3.4.8

Direction .

3.4.9 The Direction Context Menu .

3.4.10 The

Angle

Context Menu

3 4 11

Repeat object after OK

3.4.12

MultiResult Management

3.4.13 Too many

parts

3.4.14 TIPS .

3.5 LESSON: Intersection

3 5 1 Introduction.

3.5.2 Intersections .

3.5.3 Procedure

3.5.4 Example of

Intersections

3.5.5 Intersect Multiple Elements

3.5.6 Toolbar Tools Palette . . . .

3.5.7 First, Second Elements Panel.

3.5.8

Multi Result Management

3.5.9 Intersection context menu

3.5.10 Extending lines .

3 5 11 Curve

and

Point

Buttons .

3.5.12

Contour

and

Surface

Buttons

3.5.13

Extrapolate

3.5.14 Intersect .

3.5.15 TIPS .

3.6 LESSON: Parallel Curves

3 6 1 Introduction

3.6.2 Parallel Curves

3.6.3 Procedure

3.6.4 Example of a parallel curve

3.6.5 Panel Overview, A

3.6.6 Panel Overview, B

3.6.7

Curve

and

Support

3.6.8 Offset .

3.6.9

Parallel mode .

3.6.10 Parallel corner type

3 6 11 Smoothing

3.6.12

Smoothing

settings .

3.6.13

Reverse Direction

3.6.14 Both Sides

3.6.15

Repeat object after OK

3.6.16

Multi Result Management

3.6.17 Error messages

3.6.18 TIPS .


CONTENTS

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CONTENTS

3.7 LESSON: 3D Curve Offset

3 7 1 Introduction

3.7.2 Parallel curves .

3.7.3 Procedure .

3.7.4 Example of a parallel curve

3.7.5 Overview of the panel

3.7.6 Curve .

3.7.7 Pulling Direction

3.7.8 Radius.

3.7.9

Tension .

3.7.10 TIPS

3.8 LESSON: Circle

3 8 1

Introduction

3.8.2 Circles and arcs

3.8.3 Procedure

3.8.4 Example with a tangential arc .

3.8.5 Panel overview

3.8.6

Center and radius

3.8.7 Center and point .

3.8.8 Two points and radius

3.8.9 Three points

3.8.10

Center and axis . . .

3 8 11

Bitangent and radius

3.8.12 Bitangent and point

3.8.13 Tritangent . . . . .

3.8.14 Center and tangent .

3.8.15 Radius/Diameter

3.8.16 Geometry on support


3.8.18 Circle Limitations

3.8.19

Trim

Element 1 2 3

3.8.20 Axis Computation

3.8.21 Next solution .

3.8.22 TIPS .

3.9 LESSON: Corner Connect Conic

3 9 1

Introduction .

3.9.2 Connections .


3.9.4 Corner curves

3.9.5

Panel

overview orner A .

3.9.6 Support

on

Corner

3.9.7

Panel

OverviewCorner B .

3.9.8 Direction on Corner

3.9.9 Corner

On

Vertex and Point

3.9.10 Corner On Vertex and ontour

3 9 11

Connect curve

3.9.12

Panel

overview

Connect

urve

A

3.9.13 Point and Curve boxes . . . . . . .

3.9.14 Continuity and Tension .

3.9.15

Panel

overview Connect urve B

3.9.16 Base Curve .

3.9.17 Conic curves . . . . . . .

3.9.18

Panel

overview onic A

3.9.19

Panel

overview onic B

3.9.20 Parameter

.

3.9.21 Tangents

.

3.9.22 Tgt Intersection Point

3.9.23 Point 1 3

3.9.24 TIPS

3.10 LESSON: Spline .

3.10.1 Introduction


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3.10.2 Spline curves .

3.10.3 Overview of the panel,

3.10.4 Overview of the panel, B .

3.10.5 Overview of the panel, C

3.10.6 Overview of the panel, D

3.10.7 Procedure .

3.10.8 Creating a spline curve

3.10.9 Supporting points

3.10.1

OTangent

constraints

3 1 0.11Tangents using the context menu

3 1 0.12Tangent Tension

3 1 0.13Radius constraints

3 1 0.14Geometry on support

3 1 0.15Close Spline

3.10.16TIPS .

3 11 LESSON: Helix .


3.11.2 Helix curves


3.11.4 Procedure .

3.11.5 Example of a conic-shaped Helix Curve

3.11.6 Example of a spring with a profi le

3.11.7 Overview of the panel, A .

3.11.8 Overview of the panel,

B .

3.11.9 Pitch and Height

3.11.1


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CONTENTS

3.13.16Buttons and context

menu

3.13.17Reverse Direction .

3.13.18TIPS .

3.14 LESSON: Multi-Result Management


3.14.2 Parts breakdown .


3.14.4 Panel .

3.14.5 Procedure .

3.14.6 Multi Result procedure.

3.14.7 Additional parts

3.14.8 Dependent features

3.14.9 TIPS .

4 Surfaces

4 1 LESSON: verview Surfaces

4 1 1 Introduction

4.1.2 Use .

4.1.3 Surface types .

4.1.4 Examples of surfaces on the Surface toolbar

4 1

5 Procedure.

4 1

6

Tree

entry .

4.1.7 Properties

4.1.8 Searc hing.

4.1.9 Allocation

to

bodies

4 1 0 Operations . . .

4 1 11

Transformations

4.1.12 Patterns

4 1 .13 Workbenches . .

4.1.14 TIPS .

4.2 LESSON: Extrude Revolve Sphere Cylinder

4 2 1 n t r oduc t i on .

4.2.2 Extrude surfaces . . . . . . .

4.2.3 Procedure for creating Extrude surfaces


4.2.5 Direction .

4.2.6 Revolve surfaces . . . . . . . . . . .

4.2.7 Procedure for creating Revolve surfaces

4.2.8 Profile .

4.2.9 Revolution axis . . . . . . . . . . .

4.2.10 Sphere surfaces

4.2.11 Procedure for creating full spheres

4.2.12 Procedure for creating partial spheres

4.2.13 Example of a partial sphere .

4.2.14 Sphere s axis

4.2.15 Sphere limits .

4.2.16

Cylinder

surface .

4.2.17 Procedure for Cylinder

4.2.18 Point .

4.2.19 Direction .

4.2.20 TIPS

and W RNINGS

4.3 LESSON: Offset . . .

4 3 1 Introduction

4.3.2 Offset surfaces

4.3.3 Procedure

4.3.4 Example of creation of an Offset surface

4.3.5 Offset

v lue .

4.3.6 Smoothing None .

4.3.7 Smoothing

Automatic

4.3.8 Direction .

4.3.9 Both sides .


5

564

565

565

566

566

566

567

567

568

569

573

574

574

575

576

576

576

577

579

585

586

586

587

587

588

588

589

590

590

591

591

591

592

593

594

595

596

597

598

599

600

6 1

602

606

606

607

608

609

610

610

612

612

612

613

613

617

618

619

620

620


14/150

16

4.3.10 Repeat object after OK

4.3.11 Sub Elements

Remove

4.3.12 Selection of surface parts


4.3.14 Reference surface

4.3.15 Solid reference faces.

4.3.16 Error sources .

4.3.17 TIPS .

4.4 LESSON: Overview Sweep

4 4

Introduction

4.4.2 Sweep Surfaces

4.4.3 Profile Types

4.4.4 Explicit

4.4.5 Line .

4.4.6 Circle .

4.4.7 Conic .

4.4.8 Summary

4.4.9 Spines

4.4.10 Examples of Spines

4.4.11 Sources of Errors A

4.4.12 Sources of Errors B

4.4.13 Creating Spines

4.4.14 Spine and Surface Quality .

4.4.15 Smooth Sweeping .

4.4.16 TIPS .

4.5 LESSON: Sweep Explicit Reference surface Pulling direction

4 5 Introduction .

4.5.2 Explicit Surfaces .

4.5.3 Subtyp With reference surface

4.5.4

r o c e d u r e

4.5.5 Subtype: With pulling direction

4.5.6 Procedure .

4.5.7 Position profile . . . . . . . .

4.5.8 Panel

With reference surface

4.5.9 Panel With pulling direction .

4.5.10 Optional elements .

4.5.11 Projection of the guide curve as spine

4.5.12 Position profile

4.5.13 Coordinate Systems . . . . . .

4.5.14 Positioning parameters

4.5.15 Axial Origin of Guide Curve A

4.5.16 Axial Origin of Guide Curve B

4.5.17 Axial Orientation of Guide Curve A

4.5.18 Axial Orientation of Guide Curve B

4.5.19 Axial Origin of Profile .

4.5.20 Axial Orientation of Profile .

4.5.21 Sequence: A simple example .

4.5.22 Sequence: Example with Reference Surfaces.

4.5.23 Sequence: Example with Coordinate Systems

4.5.24 Sequence: Example

Pulling direction

4.5.25 Relimiter 1 2 .

4.5.26 Provisional Representation . . . . .

4.5.27 TIPS .

4.6 LESSON: SweepExplicitTwo guide urves

4 6 Introduction .

4.6.2 Explicit Surfaces . . . .

4.6.3 With two guide curves Subtyp

4.6.4 Procedure .

4.6.5 Panel Overview .

4.6.6 Position profile .

4.6.7 Position parameters


CONTENTS

62

622

623

624

625

626

627

627

629

629

630

630

63

632

633

634

635

635

636

637

637

638

639

639

639

640

640

64

64

642

643

644

645

646

647

648

649

649

650

65

652

652

653

654

654

655

655

659

665

670

673

673

674

675

675

675

676

678

679

680


15/150

CONTENTS

4 6 8 Sequence: Simple example

4 6 9 Sequence: Complex example

4 6 10 Anchoring type: w points

4 6 11

w points

4 6 12

Anchoring type: Point and direction

4 6 13 Point and direction

4 6 14 Relimiter 1 2

4 6 15 Provisional Representation

4 6 16 Problematic corner:

Cusp

1


Cusp

2

4 6 18 Moving partial boundaries

4 6 19 TIPS

4 7 LESSON: SweeplmplicitLine

4 7 1 ntroduction

4 7 2 Line Surfaces

4 7 3

Subtype

7 Overview

of Subtypes

4 7 5 Procedure

4 7 6 Subtype: w limits

4 7 7

SUbtype: Limit and middle

4 7 8

Subtype: With reference surface

4 7 9

Subtype: With reference curve

4 7 10 Subtype: With tangency surface

4 7 11

Sub type: With two tangency surfaces

4 7 12

Trim with tangency surface

4 7 13

Spine

4 7 14 Relimiter 1 Relimiter 2


Cusp


4 7 17 TIPS

4 8 LESSON: Sweep Implicit Line Subtype With draft direction

4 8 1 Introduction

4 8 2 Line surfaces

4 8 3

Subtype: With draft direction

4 8 4 r o c e d u r e

4 8 5 Example of a surface using

With draft direction

4 8 6

Draft direction

4 8 7 Reference direction

4 8 8 Draft computation mode

4 8 9 Angle definition

4 8 10

Wholly defined

4 8 11

G1 Constant

4 8 12 Location values

4 8 13 Length type

4 8 14

From curve

4 8 15

Standard

4 8 16

From/Up

4 8 17 From extremum

4 8 18

Along surface

4 8 19 Problematic corner: Cusp


4 8 21 TIPS

4 9 LESSON: SweeplmplicitCircie

4 9 1 Introduction

4 9 2 Circle Surfaces

4 9 3 Subtype

9 Overview

of Subtypes

4 9 5 Procedure

4 9 6

Subtype: Three guides

4 9 7

Subtype: w guides and radius

4 9 8

Subtype: Center and two angles


17

681

686

693

693

694

694

695

695

696

696

697

697

699

699

700

700

7 1

702

703

704

705

706

707

708

708

709

709

710

711

711

713

713

714

714

715

716

7

7

7 4

725

726

726

727

727

728

7 8

729

729

730

730

731

731

733

733

734

735

736

737

7 8

739

740


16/150

4.9.9 Subtype: Center and radius .

4.9.10 Subtype:

Two

guides and tangency surface

4.9.11 SUbtype:

One

guide and tangency surface

4.9.12 Trim with tangency surface

4.9.13 Spines

4.9.14 Relimiter 1 Relimiter 2 . . .

4.9.15 Problematic corner: Cusp .

4.9.16 Moving partial boundaries .

4.9.17 TIPS .

4.10 LESSON: SweeplmplicitConic

4 1 1 Introduction

4.10.2 Conic surfaces

4.10.3 Subtype . . . . . . . .

4.10.4 Overview of subtypes

4.10.5 Procedure .

4.10.6 Subtype:

Two

guide curves

4.10.7 Parameter .

4.10.8 Subtype: Three guide curves

4.10.9 Subtype: Four guide curves

4.10.1OSubtype: Five guide curves

4.10.11Spines .

4 1

0.12Relimiter

Relimiter

2

4 1 0.13Problematic corner: Cusp .

4 1 0.14Moving partial boundaries .

4 1 0.15TIPS .

4 11 LESSON: Adaptive Sweep

4.11.1 Introduction . . . . . . . .

4.11.2 Adaptive Sweep surfaces

4.11.3 Adaptive Sweep surfaces

4.11.4 Workbench association .

4.11.5 Procedure. . . . . . . . .

4.11.6 Example of an Adaptive Sweep surface.

4.11.7 Overview of the panel

4.11.8 Guiding Curve

4.11.9 Sketch .

4.11.1 OSketch dimensions

4.11.11Sketch constraints

4 11 .12Sections

4 11

.13Section Handling .

4.11.14Manipulation arrows

4 11 .15Parents . . . .

4 11 .16Parameters . . . . .

4 11

.17Moving Frame

4.11.18Sweep sections preview

4.11.19TIPS .

4.12 LESSON: Fill .


4.12.2 Fill Surfaces

4.12.3 Procedure for Creating Fill Surfaces

4.12.4 Example of Fill Surfaces

4.12.5 Contour Elements

4.12.6 Contour Requirement A .

4.12.7 Contour Requirement

B

4.12.8 Panel Overview

4.12.9 Panel Buttons.

4.12.1OContinuity

4.12.11Supports

4.12.12Passing point

4.12.13TIPS

4.13 LESSON: Multi-sections

eneral



CONTENTS

741

742

743

744

744

745

745

746

746

748

748

749

750

751

752

753

754

755

756

757

758

758

759

760

760

762

762

762

763

763

764

765

771

772

772

773

773

774

774

775

775

776

777

778

778

779

779

779

780

781

786

787

787

788

789

789

790

790

791

792

792


17/150

CONTENTS

4.13.2 Multi-sections Surfaces, A . . . . .

4.13.3 Multi-sections Surfaces, B . . .

4.13.4 Procedure for Multi-sections Surfaces

4.13.5 Example of Multi-sections Surface . .

4.13.6 Complex Example of Multi-sections Surface .

4.13.7 Panel, A .

4.13.8 Panel, B . . . . . . . .

4.13.9 Section . . .

4.13.1 Section and context menu

4.13.11Closing Point . .

4.13.12Closing Point and context

menu

4.13.13Arrow direction . . . . . .

4.13.14Requirements for Guides

4.13.15Handling guides

4.13.16Guides and context menu

4.13.17fangent Constraints .

4.13.18TIPS .

4.14 LESSON: Multi-sections, Spine, Coupling and Relimitation .


4.14.2 Spine .

4.14.3 Coupling .

4.14.4 Coupling methods

4.14.5 Coupling types

4.14.6 Ratio .

4.14.7 Tangency .

4.14.8 Tangency then curvature

4.14.9 Vertices

4.14.10 v1anual Edges .

4.14.11 Procedure .

4.14.12Sequence: Manual Coupling

4.14.13Coupling context menu

4.14.14Relimitation

A

. .

4.14.15Relimitation , B

4.14.16Canonical Surface

4.14.17fIPS .

4.15 LESSON: Blend, General

4.15.1 Introduction

4.15.2 Blend surfaces

4.15.3 Procedure for Blend surfaces

4.15.4 Sequence: Blend surface - open contours

4.15.5 Sequence: Blend surface - closed contours

4.15.6 Panel .

4.15.7 First/Second curve . . . . . . .

4.15.8 Significance of Closing Points

4.15.9 Changing Closing Points

4.15.10Arrows. . . . . . . . . . . . .

4.15.11First/Second support

4.15.12First/Second tangent borders

4.15.13rrim first/Second support

4.15.14Tension , A

4.15.15Tension , B . . .

4.15.16TIPS .

4.16 LESSON: Blend, Coupling.


4.16.2 Coupling .

4.16.3 Coupling Methods

4.16.4 Coupling types

4.16.5 Ratio .

4.16.6 Tangency .

4.16.7 Tangency then Curvature

4.16.8 Vertices .


19

792

793

794

795

799

804

805

806

807

808

809

810

810

8

812

813

813

814

814

814

815

816

817

817

818

819

820

8

822

823

827

828

829

829

830

83

83

83

832

833

838

843

844

845

846

847

848

849

850

85

852

852

854

854

854

855

856

856

857

858

859


18/150

4.16.9 Manual Coupling Definition . . . . . . .

4 6 OThe

Coupling Context enu . . .

4.16.11Example of manual Coupling definitions

4.16.12Display coupling curves

4.16.13TIPS .

Operations

5 LESSON: Overview Operations .

5 Introduction

5.1.2

Operations

5.1.3 Workbenches.

5.1.4 Tree entry .

5.1.5 Result .

5.1.6 Result .

5.1.7 Procedure.

5.1.8 Deleting an Operation

5.1.9 Functional Access

5.1.10 Join Healing

5 Trim Split

5.1.12 Extracts

.

5.1.13 Fillets .

5.1.14

Transformations

5.1.15 Extrapolate

5.1.16 Invert Orientation and Near

5.1.17 Law .

5.1.18 TIPS .

5.2 LESSON: Keep and No

Keep odes

5 2

n t r oduc t i on

5.2.2 Effects of operations on parents

5.2.3 Overview of hiding and showing

5.2.4 Differences for ordered sets

5.2.5 Create Datum .

5.2.6 Keep Mode and No Keep Mode

5.2.7 Keep mode for simple sets .

5.2.8 Keep mode for ordered sets

5.2.9 Datum - Datum No Keep

5.2.10 Feature - Datum No eep simple set

5 2 Feature - Datum No eep ordered set

5.3 LESSON: Join .

5 3 Introduction .

5.3.2 The Join Operation.

5.3.3 Procedure .

5.3.4 Sequence Join Operation with Wireframe Elements

5.3.5 Sequence: Example of a Join Operation with Surfaces.

5.3.6 Overview of Panel A .

5.3.7 Overview of Panel B .

5.3.8 Overview of Panel

5.3.9 Overview of Panel D .

5.3.10 Selecting for Join Operations

5 3 Context Menu

5.3.12 Check Selektion A .

5.3.13 Check Selektion

B .

5.3.14 Propagate .

5.3.15

Propagate .

5.3.16

Check tangency and Angular Threshold

5.3.17 Check Connexity and Merging Distance

5.3.18 Check manifold

5.3.19 Simplify the result

5.3.20

Federation .

5 3 2 Example: Federation.

5.3.22 Sub Elements

To

Remove


CONTENTS

860

86

862

866

866

867

868

868

869

870

87

872

873

874

875

876

876

877

878

879

880

88

882

883

883

884

884

884

885

887

888

889

889

890

89

892

893

894

894

894

895

896

899

903

904

905

906

907

908

909

910

9

912

913

913

914

915

916

917

917


19/150

CONTENTS

5.3.23 Result

5.3.24 Modifications

5.3.25 TIPS

5.4 LESSON: Healing .

5 4 1

Introduction.

5.4.2 Healing operation.

5.4.3 Use of the Operation.

5.4.4 Procedure .

5.4.5

Healing

Openings

5.4.6 Healing Tangential Discontinuities

5.4.7 Result .

5.4.8 Overview of the tab Parameters

5.4.9 Overview of the tabs Freeze

and

Sharpness

5.4.10 Overview of the tab

Visualization

5 4 11 Selection

5.4.12 Context menu. . . . .

5.4.13 Preview .

5.4.14 Surfaces Boundaries.

5.4.15 TIPS .

5.5 LESSON: Curve Smooth

5 5 1

Introduction

5.5.2

Curve Smooth

5.5.3 Procedure

5.5.4 Sequence: Example of Curve Smooth

5.5.5

Panel

Overview.

5.5.6 Parameters

5.5.7 Continuity

5.5.8 Freeze Tab

5.5.9

Tab

Extremities

5.5.10 Visualization Tab

5 5 11 Visualization

5.5.12 Displays

5.5.13 Deviation . . . .

5.5.14

Support surface

5.5.15 TIPS .

5.6 LESSON: UntrimDisassemble .

5 6 1 ntroduction

5.6.2 Untrim and Disassemble

5.6.3 The Untrim Operation

5.6.4 Procedure for using Untrim

5.6.5 Example of an Untrim Operation on a Surface.

5.6.6 Example of

an Untrim

Operation

on

a Curve.

5.6.7 Result of the Untrim Operation

5.6.8 Selection Dependency .

5.6.9 The Disassemble Operation .

5.6.10 Procedure for using Disassemble

5 6 11

Example of Disassembly of a Surface

5.6.12 Disassembly Mode . . . .

5.6.13 Example of Disassembly Modes

5.6.14 Result of Disassembly .

5.6.15 TIPS .

5.7 LESSON: Boundary Extract Multiple Edge Extract.

5 7 1

Boundary Extract and Multiple Edge Extract

5.7.2

Boundary

and

Extract

5.7.3 The Boundary Operation

5.7.4 Procedure Boundary

5.7.5 Overview of Panel Boundary

5.7.6 Propagation types

Boundary

5.7.7

Limit1

and

Limit2

5.7.8 Endpoints

5.7.9 Extract Operation.


918

918

919

920

920

921

922

923

924

925

926

927

928

929

930

931

932

933

933

935

935

936

937

938

941

942

943

944

944

945

945

946

947

947

948

949

949

949

95

951

952

953

953

954

955

956

957

960

961

962

962

964

964

964

965

966

967

968

969

97

971


20/150

5.7.10 Procedure Extract . . . . . . . . .

5 7 11 Example of an Extracted Surface .

5.7.12 Example of

an

extracted curve

5.7.13 Overview of Panel Extract

5.7.14 Propagation types extracted surfaces) .

5.7.15 Propagation types extracted curves) .

5.7.16 Curvature continuity .

5.7.17 Federation .

5.7.18 Example: Federation.

5.7.19

Complementary Mode

5.7.20 Repeated selection .

5 7 21 Multiple Edge Extract

5.7.22 TIPS .

5.8 LESSON: Invert and

ear

5 8 1

Introduction

5.8.2 Invert Orientation

5.8.3 Procedure for Invert Orientation

5.8.4 Result of

Invert Orientation

5.8.5

Near .

5.8.6 Procedure for Near

5.8.7 Near and Curves .

5.8.8

Near

and Surfaces

5.8.9

Reference Element

5.8.10 Context Menu

5 8 11 Multi-Result Management

5.8.12 TIPS .

5.9 LESSON: Shape Fillet .


5.9.2 Shape FilletOperation

5.9.3 Procedure for Constant Radius

5.9.4 Example of

Shape Fillet BiTangent Fillet

5.9.5 Overview of Panel with

BiTangent Fillet

5.9.6 Radius propagation

5.9.7

Law .

5.9.8

Implicit Law .

5.9.9 Example of Implicit

5.9.10 Law Relimiter .

5 9 11 Hold curve .

5.9.12

Hold Curve

closed spine

5.9.13 Face to Keep . . .

5.9.14 Procedure for Replace Fillet.

5.9.15 Example for Shape illet TriTangent Fillet

5.9.16 Panel Overview with

TriTangent Fillet

5.9.17 Support Surfaces. . .

5.9.18 Support Context Menu .

5.9.19 Arrow Directions .

5.9.20

Extremities . . . . .

5 9 21 Trim support Elements .

5.9.22 TIPS .

5.10 LESSON: Edge Fillet .

5 1 1

Introduction . . . .

5.10.2 Edge Fillet Operation

5.10.3 Procedure. . . . . . .

5.10.4 Example of an

Edge Fillet

Operation

5.10.5 Overview of Panel, A .

5.10.6 Overview of Panel, B .

5.10.7 Extremities

5.10.8 Object s to fillet

5.10.9

Fillet objects

5 1 1 Propagation

5 1 0.11Small tangent discontinuities


CONTENTS

972

973

975

978

979

980

981

981

982

982

983

984

984

986

986

987

988

989

989

990

990

991

992

993

994

994

996

996

996

997

998

1002

1003

1004

1005

1006

1007

1008

1009

1009

1010

1 11

1015

1015

1016

1016

1017

1017

1018

1019

1019

1019

1020

1 21

1024

1025

1025

1026

1027

1027

1028


21/150

CONTENTS

5 1

0.12Trim ribbons

5 1 0.13Trim support

5 1 0.14Edge s to keep

5 1

0.15Limiting element s

5 1 0.16Blend corner s

5 1

0.17Procedure

5 11 LESSON: Variable Radius Fillet

5.11.1 Introduction . . . . . .

5.11.2 The Variable Radius Fillet Operation

5.11.3 Procedure. . . . . . . . . . . . . . .

5.11.4 Example of Variable Edge Fillet Operation

5.11.5 Overview of Panel, A .

5.11.6 Overview of Panel, B .

5.11.7 Extremities

5.11.8 Edge s to fillet

5.11.9 Fillet edges .

5.11.1


22/150

5.13.1 Etlide/Show initial element

5.13.1 ffiepeat object after OK .

5.13.17Results Using Repeat object after OK

5.13.18TIPS .

5.14 LESSON: Extrapolate

5 14 1 Introduction

5.14.2 Extrapolate

5.14.3 Procedure

5.14.4 Example of Surface Extrapolation

5.14.5 Example of Curve Extrapolation

5.14.6 Overview of the panel A

5.14.7 Overview of the panel B

5.14.8 Boundary and Extrapolated

5.14.9 Limit

5 14 1OContinuity

5 14 11Extremities

5 14 12Propagation mode

5 14 12Anternal Edges .

5 14 14Assemble result

.

5 14 15Support .

5.14.16Up to element Support

5.14.17TIPS

5.15 LESSON: Laws

5.15.1 Introduction

5.15.2 Law

5.15.3 Applications.

5.15.4 Law types

5.15.5 Linear and S type

5.15.6 Sequence: Example of linear and S type laws

5.15.7

dvanced

5.15.8 Task . . . . . . . . . . . . .

5.15.9 Procedure. . . . . . . . . . . . . . .

5.15.1OSequence: Example of a law feature

5 15 11Reference

and

Definition

5 15 1 a aw extent

5.15.13Law implementation .

5 15 14Heterogeneous Law

5.15.15Example Heterogeneous Law

5 15 16Lawanalysis

5 15 17Scaling

5.15.18Tree entry

5.15.19Law inversion

5.15.20TIPS

5.16 LESSON: ethods


5.16.2 Tree structure .

5.16.3 Renaming

5.16.4 Modification sequence .

5.16.5 Considering references

5.16.6 Checking references .

5.16.7 Hide mode

5.16.8 Solid surfaces

6 Analysis

6 1 LESSON: Porcupine Curvature Analysis .

6 1 1

I n t roduc t ion .

6.1.2 The Function Porcupine Curvature Analysis

6 1 3 sage


6 1 5 Procedure

6 1 6 Panel Overview. . . .


CONTENTS

1077

1077

1078

1078

1079

1079

1080

1 81

1082

1086

1090

1 91

1092

1092

1093

1093

1094

1094

1095

1095

1096

1096

1097

1097

1097

1098

1099

1100

1100

1106

1107

1108

1108

1113

1114

1115

1116

1117

1118

1118

1119

1120

1120

1121

1121

1121

1122

1122

1123

1124

1125

1125

1127

1128

1128

1128

1129

1129

1130

1131


23/150

CONTENTS

6.2

6.3

6.4

6.1.7 Selection . . . . . . . .

6.1.8

Type

6.1.9 Curves Curvature and Radius

6 1 1

Project Plane

6 1 11

Density . .

6.1.12 Amplitude

6.1.13

Reverse

6.1.14

Particular

.

6.1.15

Inverse Value

6 1

16

Comb and Envelop

6.1.17 Keeping Points A

6.1.18 Keeping Points B

LESSON: Surfacic Curvature Analysis


6.2.2 Function

Surfacic Curvature Analysis

6.2.3

sage


6.2.5 Precondition

6.2.6 Procedure

6.2.7

Panel

Overview.

6.2.8 Selection

6.2.9 Analysis Type. .

6.2.10

Gaussian

Analysis

6 2 11 Limited

Analysis .

6.2.12 Inflection Area Analysis

6.2.13 Color Scale

6.2.14

The Fly .

6.2.15

D MinMax .

6.2.16 Modifying Color Representation A

6.2.17 Modifying Color Representation B

6.2.18 Panel

Color .

6.2.19 Modifying Values for Analysis A

6.2.20 Modifying Values for Analysis B

6 2 21

Keeping Points . . . . .

6.2.22 TIPS .

LESSON: Surfacic Connection Analysis

6 3 1

n t r oduc t i on

6.3.2 Function Connect Checker

6.3.3

sage


6.3.5 Procedure

6.3.6

Panel

Overview A

6.3.7

Panel

Overview B

6.3.8 Selection . . .

6.3.9 Analysis ype

6.3.10 Internal edges

6 3 11

Maximum gap

6.3.12 Discretization .

6.3.13 Color Scale

6.3.14 Comb and Envelope

6.3.15

Information .

6.3.16

Scaling .

6.3.17 Quick Violation Analysis

6.3.18 Quick . . . . . . . . . .

6.3.19 Modifying Color Representation A .

6.3.20 Panel

Color .

6 3 21

Modifying Color Representation B

6.3.22 Modifying Values for Analysis A

6.3.23 Modifying Values for Analysis B

LESSON: Surface Draft Analysis

6 4 1 n t r oduc t i on


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CONTENTS

7.4.5 Tabs .

7.4.6 Sequence: Procedure for Use of Tab General

7.4.7 Search Criteria, A

7.4.8 Search Criteria, B

7.4.9

Look

for Parts

7.4.10 Look for Products

7 4

dvanced . . .

7.4.12 Favorites

7.4.13 Context

enu

7.4.14 TIPS

7 5 LESSON: Replace

7 5 Introduction

7.5.2 Context Menu

Replace

7.5.3 Procedure .

7.5.4 Sequence for a Simple Replacement Operation with Replace

7.5.5 Sequence for Complex Replacement Operation with Replace

7.5.6 Panel .


7.5.8

References

7.5.9 Not Pointed

7.5.10 QuickSelect

7 5

Reference Search

7.5.12 TIPS .

7 6 LESSON: Parent/Children

7 6 Introduction

7.6.2

Parents and Children

7.6.3 Use of Function

7.6.4 Access .

7.6.5 Window Handling

7.6.6 Overview of Context Menu Functions, A

7.6.7 Overview of Context

Menu

Functions, B

7.6.8 Hide Show .

7.6.9 Show Parents and Children

7.6.10 Show All Children .

7 6

Show All Parents .

7.6.12 Hide Children and Hide Parents

7.6.13 Doubleclick .

7.6.14

Quick Select

7.6.15 TIPS .

7 7 LESSON: Historical Graph

7 7 Introduction

7.7.2

Historical Graph

7.7.3 Use of Function.

7.7.4 Access

7.7.5 Window Handling.

7.7.6

Graph ll .

7.7.7

Panel

Icons .

7.7.8 Adding and

Removing

7.7.9 Surface/PART Presentation

7 7 0

Parameters . . . . . . . .

7 7

Plus and Minus Signs

7.7.12 Add Children

7.7.13 Feature Modifications

7.7.14

Quick Select

7.7.15 Hide Mode

7.7.16 TIPS


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8 Geometrical Sets

8 1 LESSON: Overview of Geometrical Sets .

8 1 1 Introduction

8.1.2 Geometrical Sets . .

8.1.3 Workbenches

8.1.4 Simple Geometrical set

8.1.5

Ordered geometrical set

8.1.6 Hybrid Design Bodies .

8.1.7 Active geometrical set .

8.1.8 Changing an active geometrical set

8.1.9 Intermediate versions of

Geometrical sets

8.1.10 Intermediate versions of Ordered geometrical sets

8 1 11

Playing back histories .

8.1.12 Changing the order of operations A

8.1.13 Changing the order of operations B

8.1.14 Summary

8 1 15 Strategy . . . . . . . . . .

8.1.16 TIPS .

8.2 LESSON: InsertGeometrical Set


8.2.2 Geometrical set

8.2.3 Workbench Association .

8.2.4 Workbench Dependency

8.2.5 rocedure

8.2.6 Sequence: Example Geometrical set .

8.2.7 Sequence: Example Ordered geometrical set

8.2.8 Features with Geometrical set

8.2.9 Features with Ordered geometrical set

8.2.10 Father .

8 2 11 Warning with Geometrical set

8.2.12 Order with Geometrical set

8.2.13 Hybrid Design Bodies .

8.2.14 TIPS .

8.3 LESSON: Handling of Geometrical Set

8 3 1 ntroduction

8.3.2 Removal geometrical set

8.3.3 Remove geometrical set

8.3.4 Delete Useless lements

8.3.5

Activate

and

Deactivate .

8.3.6 Show and Hide Components

8.3.7 Change geometrical set and sets

8.3.8 Change geometrical set and Features.

8.3.9

Move unshared parents

8.3.10 Move all parents

8 3 11 Reorder Children

8.3.12 AutoSort .

8.3.13 TIPS .

8.4 LESSON: Group and Geometrical set

8 4 1 Introduction.

8.4.2 Create Group

8.4.3 rocedure

8.4.4 Example of a Group

8.4.5 Panel

8.4.6 Name

8.4.7

Input

8.4.8 Apply

8.4.9 Expand and Collapse Group

8.4.10 Changing Definition

8 4 11

Deleting Group .

8.4.12 Group Handling.

8.4.13 TIPS .


CONTENTS

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9.1.9 Resolution

9.1.10 Deleting patterns .

9 1 11 Pattern types .

9.1.12 TIPS .

9.2 LESSON: Surface Rectangular Patterns


9.2.2 Rectangular Pattern .

9.2.3 rocedure .

9.2.4 Sequence: Copying in One Direction.

9.2.5 Procedure for 2 Directions .

9.2.6 Sequence: Copying in two Directions

9.2.7 Copying Directions .

9.2.8 Parameters .

9.2.9 Parameter Combinations

9.2.10 Keep Specifications

9 2 11

Deactivating Instances

9.2.12 Object Positioning

9.2.13 Simplified Representation

9.2.14 TIPS .

9.3 LESSON: Surface Circular Patterns

9 3 1 Introduction

9.3.2

Circular Pattern . . . .

9.3.3 rocedu re

9.3.4 Sequence: copying along an arc

9.3.5 Sequence: copying along different circles

9.3.6 Axis of rotation .

9.3.7 Parameters .

9.3.8 Axial Reference .

9.3.9

Instance s unequal angular spacing

9.3.10 Crown Definition

9 3 11 Keep specifications

9.3.12 Deactivating instances.

9.3.13 Object positioning

9.3.14 Radial alignment of Instance s

9.3.15 Simplified representation

9.3.16 TIPS .

10 Hybrid Modeling

1 1 LESSON: Overview Hybrid Modeling .


10.1.2 Applications . . . .

10.1.3 Applications

10.1.4 Example: Cutting.

10.1.5 Example: Thickness

10.1.6 Example: Import

10.1.7 Example: Modifications

10.1.8 Advantages

and

Disadvantages

10.2 LESSON: Auxiliary Functions

1 2 1 Introduction

10.2.2 Surface Additions

10.2.3 Trimming Surfaces

10.2.4 Joining Surfaces .

10.2.5 Cutting Surfaces .

10.2.6 Extending Surfaces

10.2.7 Extracting Surfaces

10.2.8 Repairing Surfaces.

10.2.9 Moving

10.3 LESSON: Split Surface

1 3 1

Introduction.

10.3.2 Split

10.3.3 Procedure. .


CONTENTS

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ONT NTS

10.3.4 Example: Split

10.3.5 The

Split

Function

10.3.6 Surfaces

10.3.7 Surface Conditions.

10.3.8 Surface Extension A .

10.3.9 Surface Extension B .

1 3 1 GArrow

Directions

10.3.11Changing Surfaces.

10.3.12TIPS .

10.4 LESSON: Thick Surface


10.4.2 Thick Surface

10.4.3 Procedure

10.4.4 Example:

Thick Surface

10.4.5 Thick Surface Function .

10.4.6 Surfaces .

10.4.7 Problems .

10.4.8 Extract

Offset

Surfaces


10.4.1OChanging Surfaces.

10.4.11TIPS .

10.5 LESSON: Close Surface.

1 5 1

Introduction

10.5.2 lose Surface

10.5.3 Procedure

10.5.4 Example:

lose Surface

10.5.5 The lose Surface Function

10.5.6 Surface Conditions

10.5.7 Surface Modification A

10.5.8 Surface Modification B

10.5.9 Surface Modification C

1 5 1 OSurface Modification D


10.5.12Remove solid forms

10.5.13TIPS .

10.6 LESSON: Sew Surface


10.6.2 Sew Surface

10.6.3 Procedure

10.6.4 Example: Sew Surface

10.6.5 Sew Surface Function .

10.6.6 Surface Boundaries

10.6.7 Openings .

10.6.8 Surface Modifications

10.6.9 Essential Trimming.

10.6.10Arrow Directions


10.6.12TIPS .

10.7 LESSON: Methods .

1 7 1

Introduction .

10.7.2 Stable Solutions

10.7.3 Surface uality

10.7.4 Fillets A .

10.7.5 Fillets B .

10.7.6 Simplified Surfaces.

10.7.7 Surface Versions .

10.7.8 Renaming

10.7.9 Copying surfaces.


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Miscellaneous

LESSON: Configuring Standard Views .

Introduction .

.1.2 Modifying standard views

.1.3 Panel display .

.1.4 Panel overview

11.1.5 Procedure

11.1.6 Apply to axis

2 Examples Vehicle

2

LESSON: Closing Plate Requirements

2

Closing Plate Firewall

12.1.2 Scenario

12.1.3 Contour .

12.1.4 Sidefaces

12.1.5 Height . .

12.1.6 Flange

12.1.7 Openings Electronics

12.1.8 Steering Wheel Column

12.1.9 Workplan .

12.2 LESSON: Reinforcement Wheelhouse Requirements

2 2

Wheelhouse Reinforcement.

12.2.2 Scenario .

12.2.3 Wheelhouse Reference

12.2.4 Clearence .

12.2.5 Stamping Direction.

12.2.6 Contour

12.2.7 Draft Angles .

12.2.8 Flange .

12.2.9 Embossment Depths.

2 2

OEmbossment Contours

12.2.11Holes

12.2.12\tVorkplan .


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CATIA Tutorial Advanced Surface Design Theory Part1of7

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Transcript of CATIA Tutorial Advanced Surface Design Theory Part1of7