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
1.10.3 Workbench Association
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
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CONTENTS
1 11 1 Introduction . . . . .
1.11.2 Measure Funct lon .
1.11.3 Workbench Association
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 1 Introduction .
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
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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 .
2.4.5 Workbench Association
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 .
2.5.6 Parameterization
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
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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
2.8.6 Parameterization
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 .
2.10.4 Workbench Association
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
2.12.1 Introduction .
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. .
2.13.1 Introduction .
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
2.14.1 Introduction .
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
2.15.1 Introduction .
2.15.2 Overview .
2.15.3 Workbench Association
2.15.4 Function Update
2.15.5 Update Settings
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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
2.15.2a
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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 1 Introduction .
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 .
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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
3.8.17 Multi Result Management
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 .
3.9.3 Workbench Association
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 .
3.11.1 Introduction .
3.11.2 Helix curves
3.11.3 Workbench Association
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
3.14.1 Introduction .
3.14.2 Parts breakdown .
3.14.3 Multi Result Management
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
4.2.4 Multi Result Management
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 .
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4.3.10 Repeat object after OK
4.3.11 Sub Elements
Remove
4.3.12 Selection of surface parts
4.3.13 Multi Result Management
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
2001 2005 UNICO GmbH
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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
4 6 17 Problematic corner:
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
4 7 15 Problematic corner:
Cusp
4 7 16 Moving partial boundaries
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 20 Moving partial boundaries
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
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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 .
4.12.1 Introduction .
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
4.13.1 Introduction .
2001-2005 UNICO GmbH
CONTENTS
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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 .
4.14.1 Introduction .
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.
4.16.1 Introduction .
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 .
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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
2001-2005 UNICO GmbH
CONTENTS
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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.
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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 1 Introduction .
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
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CONTENTS
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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
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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
5.16.1 Introduction .
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
6.1.4 Workbench Association
6 1 5 Procedure
6 1 6 Panel Overview. . . .
2001 2005 UNICO GmbH
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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 1 Introduction .
6.2.2 Function
Surfacic Curvature Analysis
6.2.3
sage
6.2.4 Workbench Association
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
6.3.4 Workbench Association
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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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 .
7.5.7 Arrow Directions
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 1 Introduction .
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 .
2001 2005 UNICO GmbH
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 1 Introduction .
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 .
1 1 1 Introduction .
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. .
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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
1 4 1 Introduction .
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
10.4.9 Arrow Directions
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
10.5.11Changing Surfaces.
10.5.12Remove solid forms
10.5.13TIPS .
10.6 LESSON: Sew Surface
1 6 1 Introduction .
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
10.6.11Changing Surfaces.
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 .
2001 2005 UNICO GmbH
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