Catia Book

Connector Housing (1): Creating the Main Pad and Other Features Extruding the Main Pad 1. profile.

2. Pad function , connector profile 70mm pad .

Designing the Catch 1. yz plane offset 35mm plane .

1

2. offset plane Sketch

constraints .

3. bottom line pad top coincidence constraint the vertical line pad back distance constraint . dimension .

4. sketcher

offset plane

8mm (16mm) catch pad .

2

Hint: Mirrored Extent option

Detent Pocket 1. main pad

offset 20mm plane .

2. offset plane sketcher ,

Part by Sketch Plane

profile .

3

,

pocket constraint

3.Exit sketcher , pocket tool

9.5mm detent pocket .

4

Clip Design 1. main pad

sketcher .

2. clip Sketch.

3.

line pad coincidence constraint . top right point detent offset

plane coincidence constraint .

constraint .

5

4. sketcher

create 3mm long clip using the pad tool

End of step

Connector Housing (2): Dressing-up the Connector Drafting Surfaces Pad 1. perimeter

face (5 faces) 3deg draft . connector neutral element .

6

2. lower upper face neutral element connector step face 3deg draft .

Filleting Edges 1.

upper and lower edge 1mm fillet .

7

2.

corner edge

fillet . top 1mm, 2mm radius fillet .

Shelling the Part Pocket 1. connector 1mm thickness

shell . clip

remove.

Fillet

8

1. part

2.

1mm fillet .

element Hide .

9

Creating a Hole 1.

right edge 15mm, front edge 10mm 3.5mm diameter Hole .

Creating a Pattern 1.

hole

rectangular pattern .

object first hole

first hole 40mm

Using the as the . pattern direction front edge .

10

Adding Standoffs and Reordering 1. part

profile , standoff constraints .

2. sketcher

Pad tool 4mm standoff .

11

3. specification tree hole standoff , hole .

4. Use rectangular pattern

standoff duplicate hole

12

.

Connector Housing (3): Modifying the Part Editing Feature Parameters 1. First pad (Pad. 1)

width 35mm 40mm .

13

2.

connector .

Sketch 14

1.

tangent line

Pad. 4 . constraint

perpendicular .

2. circle line Trim.

3. sketcher

part update. (Auto Update off )

15

Fillet 1. 1mm 1.5mm fillet radius . (EdgeFillet.1)

fillet radius

.

16

Hole Type 1. Hole.1

diameter 5mm depth 1.5mm Counter bored Hole type

Feature Properties 1. Catch (Pad. 2)

properties red .

17

.

Hinge exercise sketcher, constraints, pad, pocket, hole, draft, fillet, mirror and pattern tool hinge part . hinge hinge

. .

18

1. new CAT Part . 2.

triangular pad XY plane

3.

main pad . sketcher .

.

Profile tool outer profile .

Ι Hint: triangle

vertical constraint

.

19

4. Constrain

.

20

5. Sketcher

, triangle sketch

positive OZ

height 7.5mm main pad.

6.

pocket . main pad

. plane sketcher .

21

pocket Hinge thickness link

Hinge

pocket profile .

7. pocket profile

.

22

pocket

pad surface

8.

triangle

9. sketcher

profile Constrain

triangle

.(Hint: contextual menu distance option .)

Parameter

positive OZ pocket .

23

10.

bearing . main pad

11. 15 mm radius circle

sketcher .

pocket

coincident

menu) .

24

constrain(contextual

12. sketcher

OZ cylinder pad

13. other bearing

first cylinder pad duplicate. simple copy & paste

duplicate

main pad 14. grid

.

up to plane limit type

bearing

bottom surface 2 point . Sketch.4 tree

.

sketcher . .

25

hinge

user pattern

.

15 point

pocket triangle

coincide (contextual menu). (small triangle

part orientation

.)

16. sketcher

cylinder pad . pattern

keep specifications option

User Pattern

.

26

Sketch. 4.

.

bearing 17. 6

5mm radius fillet

18. hinge draft angle

. hole . .

. pulling direction the positive OZ

angle 3 degrees, Neutral element hinge .

27

19. edge radius 2mm fillet

.

28

20. bottom face symmetry plane hinge symmetrical part

21. bearing

,

.

- Hole icon . - Hole center

edge .

29

.

- Hole

face .

- parameter .

- .

30

22.

hole

.

cylinder pad (treeSketch.4

23.

.

sketch . . ). Keep specifications option

.

31

.

Angle Bracket Sketcher and Part Design workbench

small bracket

Profile sketcher Pad extruding.

32

.

Step 1: Part Design Parameter 1. new Part , Tools -> Options -> General -> Units 2. Tool -> Options -> Part -> Sketcher

mm .

Sketcher Primary Spacing 20 mm, graduation

10 . 3. Tools -> Options -> Part -> Display 4. OK

, Option

Relations check

.

.

Step 2: Bracket Pad dimension hole

.

Bracket

sketches

33

pads

. 3mm

.

34

1. XY plane Sketcher .

Rectangle icon

. dimension

35

.

2. Sketcher

sketch height 26 mm Pad

part base pad

.

.:

36

3. XY plane dimension

Sketcher

.. Use Profile

Pad

.

4. Height 4 mm Second Pad .

37

constrain

Step 3: Bracket angle

profile flange

Pilot Hole and the Angular Pad

(clevis) .

YZ plane 24degree

angular Plane .

,

.

hole center plane

24 Degrees Plane pilot hole center

5.

extrusion limits

model hole

reference edge , Hole feature icon

flange

.

. pilot hole

hole . pad hole .

38

pilot hole

dimension

.

hole

Part drawing

.

Up to Next option .

6. reference edge , Hole feature icon Part drawing

dimension hole

. Up to Next option .

7. rounded edge , Hole feature icon hole

hole . pad hole .

hole .

pad

rounded edge center . Up to Next option .

39

hole .

hole diameter (3)

pilot hole center 24 Degree plane . View -> Toolbars -> Reference Elements (Extended) Plane icon .

8. Plane icon

,”Angle/Normal to Plane”

plane ._. reference pad .

as the for the plane rotation axis pilot hole . _24 Degrees

40

Plane .

and the

9. To redefine the as the In Work Object Part Body Define In Work Object_

10.

plane

cursor tree Part Body .

contextual menu .

profile Sketcher . profile constrain

41

dimension

.

11. sketch a thickness 4 mm pad . (2 limits option ).

Rectangular Pattern tool

Clevis .

( tool Insert/Transformation Features

12. Rectangular Pattern Icon

.)

,

Clevis , reference direction

instances 2, spacing 16 mm .

42

red edge .

Step 4: Hole and Fillet

Clevis

13. In order to define a concentric hole R 13 edge

the Hole tool

6mm diameter ,

Up to Last

Clevis

Clevis

.

Option .

43

Edge Fillet fillet 14.

.(

multi-select edges

R3 fillet . (5 edges).

15. Create the R6 fillets (2 edges).

16. Finally, create the R8 fillets (2 fillets).

44

.)

Meat Mincer Screw Sketcher, Part Design, Wireframe and Surface

45

screw

.

CATIA

Tools -> Options

Start menu Wireframe and Surface Workbench

, millimeter

.

46

.

Tools -> Options

, sketcher grid

parameter

47

.

Profiles Helixes screw

helix

.

element screw

.

strait line .

. (twelve points).

48

12

12 helix .

plane 12

profile

Helix coincident

.

. then we are going to make each

49

profile corner

,

.

1. Sketcher icon

2. Profile icon

XY plane .

, grid profile

.

50

3. Exit icon Sketcher

4.

Line icon

.

, dialog box Line type Point-Point option .

5. In order to create the first of the line menu Create Point

point , cursor Point 1

. ( third mouse button )

51

, contextual

6. Point

new dialog box

. dialog box Point type Coordinates option .

7. X=, Y= and Z= field point coordinate X=0, Y=0 and Z=0 . 8.

line second point

point 2 field

.

contextual menu Point . (third mouse button ).

52

OK .

9 Point

new dialog box

. dialog box Point type Coordinates option .

10. X=, Y= and Z= field point coordinate X=0, Y=0 and Z=200 . 11.

line

point

. Line dialog box OK .

53

OK .

.

54

12.

sketch

option On curve

13. cursor sketch

point

.

Point icon

,

sketch .

point type

.

.,

circle ,

55

.

14. point

, dialog box OK .

15.The point

.

11

.

.

16. tapped helix .Helix icon

. ( Spline icon

56

).

17. helix starting point

18. dialog box Axis field .

point .

line .

57

19. dialog box parameter . OK .

.

58

20. helix

.

11 helis

.

.

21.

XY plane

, helix

, 12 point profile

59

.

. Plane icon

.

22. XY plane .

23. helix

OK .

.

60

24. Sketcher icon

25. Profile icon

,

, grid ,

plane .

profile :

61

62

26. contextual menu ,

Constraint .

63

27. With the Ctrl key

28. Constraint Defined in Dialog Box icon

.

29. Coincidence option dialog box , OK .

64

.

65

30.

helix

11

coincidence .

.

66

31. Exit icon Screw

.

Sketcher

.

solid part

.

Loft

67

helix guide lines

solid loft .

1. Part Design workbench . (Start menu ).

2. Loft icon

.

3.

.

sketch

68

4. , closing point section orientation

closing points

5. Guide field .

6.

helix

OK .

69

.

.

70

Tri-Tangent Fillets tri-tangent fillets .

7. Tri-Tangent Fillet icon 8. thread

. (Edge Fillet icon

.

71

. ).

9. remove

OK .

.

72

10.

tri-tangent fillets

thread .

.

Variable Radius Fillets

73

variable radius fillets .

1. Ctrl key

edge . ( thread )

2. Variable Radius Fillet icon

. ( Tri-Tangent Fillet icon

74

).

3. cone

radius dimension

.

OK .

75

dialog box

.

radius

10

4.

cone

5.

, cone

3

radius 5 10

4 radius 5 15

main dialog box OK .

76

.

Pad pad

.

77

6. Sketcher icon

,

face .

78

7. Hexagon icon

. (Rectangle icon

. ).

8. sketcher origin .

9. grid , point .

79

.

10. Exit icon Sketcher

11. Pad icon 12.

.

sketch , parameter ( pad

OK

.

pad . .):

80

.

81

Groove chamfer groove function

13. Sketcher icon

14. Profile icon

.

YZ plane .

grid , profile .

82

profile 15.

contraints screw profile constraints

,

. .

Ctrl key

16. Constraints Defined in Dialog Box icon 17. Coincidence option .

83

screw top face , profile

..

edge .

18. coincidence creation

19.

method ,

OK .

edges

coincidence constraint .

84

20.

angular constraint . Constraint icon .

21. edge :

85

22. edge .

23.

angular constraint

angular constraint Click.

86

24. angular value , angular dimension double click.

25. value field 60

, OK .

87

dialog box :

26.

linear constraint . Constraint icon

27.profile point :

28. screw edge :

88

.

29. constraint

position constraint Click.

30. dimension value

, dimension double click. dialog box :

89

31. value field 46

, OK .

32. groove ,axis

, Axis icon

.

90

33. grid , axis :

34. Exit icon Sketcher 35. , groove 36. groove

Groove icon parameters

. ,,

sketch .

OK .

91

:

Pad pad

:

92

37. Sketcher icon

38. Circle icon

,

face :

.

93

39. circle center, origin

40. grid , circle radius

41. Exit icon Sketcher 42. , Pad icon

.

43. sketch ,

parameter

point .

.

pad .( pad

OK

94

.):

.

95

Hole hole

:

96

44. Hole icon . 45. face

(face circular

46. dialog box parameter

, the hole face center

, Threaded button

97

):

Specification button .

47. Thread Definition dialog box parameter

, OK .

48. Select OK in the Hole Definition dialog box OK . :

98

Chamfer chamfer :

99

1. Chamfer icon . 2.

edge :

3. Chamfer Definition dialog box parameter

:

100

, OK .

4. Meat Mincer Screw save

.

Tee Fitting designing parts Sketcher Part Design workbenches design

.

101

tee fitting screw

CATIA

,

Part Design Workbench (Start menu ).

Tools -> Options command , millimeter

.

102

Using the Tools -> Options command , sketcher grid parameter

Creating Pads Tee Fitting 1/4

pad

.

103

:

pad

:

.

104

.

.

105

1. Sketcher icon 2. Rectangle icon

, XY plane . grid ,

rectangle :

106

3. Exit icon Sketcher 4. Pad icon

5. Sketcher icon

6. grid ,

. ,

parameter

,

pad :

face :

line :

107

7. Exit icon Sketcher

8. Pad icon

.

,

parameter

pad :

108

9. Sketcher icon

,

face :

10. Using the grid , line :

109

11. Exit icon Sketcher

12. Pad icon

13. Sketcher icon

.

,

parameter

,

pad :

face :

110

14. grid ,

profile :

15. corner :

111

112

16. grid ,

strait line :

113

17. Trim icon

18.

trim the corners with the strait line in order to get:

line :

114

19. Exit icon Sketcher

20. , Pad icon

.

,

parameter

pad :

:

115

Draft Angles and Fillets ,

draft angle (green) fillet (red)

:

116

1. Draft Angle icon

parameter

draft angle :

2. Draft Angle icon

parameter

draft angle :

117

3. Draft Angle icon

4. Edge Fillet icon

parameter

draft angle :

edge parameter

118

fillet :

5. Edge Fillet icon

edge parameter

fillet :

6. Edge Fillet icon

edge parameter

fillet :

119

:

Holes ,

hole :

120

1. Hole icon

,

2. dialog box parameter

face :

(Extension tab):

121

3. dialog box parameter

(Type tab):

122

4. Extension tab

, dialog box Positioning Sketch icon .

5. Ctrl key ,

edge point .

123

6. Constraints Defined in dialog Box icon 7. dialog box Concentricity option

8. Exit icon

Sketcher

.

, OK .

.

:

124

9. Hole icon

,

face :

125

10. dialog box parameter

(Extension tab):

11. dialog box parameter

(Type tab):

12. Extension tab

, dialog box Positioning Sketch icon

126

.

13. Ctrl key ,

edge point .

127

14. Constraints Defined in dialog Box icon 15. dialog box Concentricity option

16. Exit icon Sketcher

, OK .

.

17. :

128

.

129

Mirroring mirror

1. Mirror icon

.

, face :

130

2. dialog box OK .

:

131

3. Mirror icon

, face :

132

4. dialog box OK .

:

133

Shaft tee fitting

.

main part body

.

main part

solid body .

134

,

body

1.

,

Body

.

Insert + Body function .

tree :

135

body

.

2. core creation Hide/Show icon ,

,

No Show part body , Part Body .

shaft :

136

.

3. Sketcher icon 4. grid , profile

5. shaft

, ZX plane . constrain .

, axis

. Axis icon

, grid , axis :

137

6. Exit icon Sketcher 7. Shaft icon

. ,

8. dialog box parameter

sketch .

, OK .

:

138

Fillet fillet

:

1. Edge Fillet icon

, edge parameter

139

fillet ..

:

Shaft shaft

:

140

1. Sketcher icon

, ZX plane .

2. grid , profile :

3.

shaft

, axis

. Axis icon

, grid , axis :

141

4. Exit icon Sketcher 5. Shaft icon

. ,

6. dialog box parameter

sketch . , OK .

142

:

Fillet fillet

:

143

1. Edge Fillet icon

,

edge parameter

:

144

fillet ..:

145

Body main part core 1.

Show part body

. . Hide/Show icon

treePartBody .

2. core

body cursor (tree)

, contextual menu Body.2 object +Remove function

(MB3).

146

:

147

Tee Fitting save

.

CATIA V5 Assembly Design Assembly Design

Part

(Top-Down)

(Bottom-Up) (Concurrent Engineering)

.

. , . Analysis

, Bill of Material

. CATIA V5

Part Design, Generative Drafting, DMU Navigator Version 4Data

.

1. Assembly Design

148

(1)Pull-Down Menu Assembly Design . (2) Workbench Assembly Design .

149

Workbench Icon 1

Dialog Box

. Assembly Design .

,

.

2. Assembly Design Icon Assembly Tool

# Product Structure Tools ( Product (

)

Part

,

) : ,

Tool. - Pop-Up Menu

Pull-Down Menu Insert

150

Icon

.

,

- New Component ( - New Product ( - New Part (

):

Sub Assembly

):

Assembly Design Product(

):

- Existing Component (

) : Assembly

- Manage Representations (

):

):

. .

Assembly

- Replacement component (

- Define Multi Istantiation (

)

Assembly Design Part ):

.

Part .

Assembly

,

,

151

.

.

,

,

.

- Fast Multi Istantiation (

):

Define Multi Istantiation

.

152

. Icon

# Move (

):

- Manipulation (

):

/ , X,Y,Z

, Dialog Box

- Snap ( Plane

) :

Geometry

, .

.

Geometry

.

153

. Geometry

Point, Line,

- Explode (

) : Assembly

. Update

.



.>

154

<Explode

>

# Constraints (

) : Assembly Design

. - Coincidence Constrain (

):

,

155

,

.

> - Contact Constraint (

):

,

.

156

> - Offset Constraint (

):

.

>

157


20 >

> - Angle Constraint (

):

Component

.

158

<

>

< 320deg >

159

> - Fix Component (


):

.

>

- Fix Together (

):

Component

.

160



< Component

Compopnent >

>

>

161

- Quick Constraint (

) : Pull-Down Menu --> Tools --> Option --> Product

.

< Quick Constraint

.>

- Activate / Deactive Constraints (

):

Constraint

. Update

. - Change Constraint (

) : Constraint

Type Constraint change .

162

Constraint

.> ) :

- Reuse Pattern (

Part Pattern

.

<

Component .>

< Component

.>

163

Part Patten


Part Pattern

Part .>

164

.>

, .>]


>

3. Analyze :

,

Pull-Down Menu Analyze Compute Clash Bill of Material - Compute Clash :

,

.

165

. Analyze .

.

Clash :

main-body

.

>

Clearance :

166

<

.>

- Bill of Material :

txt, html, xls

.

167

168

CATIA V5

Loader

<1> Bucket 1. Start menu

(Wireframe and Surface Design)

2. yz plane sketch

,

CATIA .

profile

1> .

1> line 3.

circle

< <

profile 3D mode < 4> surface

2>

2> line circle Tangency 3> Extrude

.

169

trim

3>

4. Part Design

4>

Thick Surface surface

.

5> surface hide

. hide

Swap visible space

.)

5> 5. Bucket <

6> (

Symmetry

170

.) 3D mode

pocket.<

7>

6>

7>

<2> bucket 1. Bucket 8>

Top menu Insert

pad.

Body

Body

Project 3D Element

trim

8> 2 . pad

<

9> <

10>

0.5

,1

171

, bucket

pad.

< .

9>

10>

3 . Specification Tree Body2 Body2

bucket

Part Body

Insert Body

yz plane

Bucket

solid

<

11>

mirror

mirror.

solid

.

11> <3> Bucket , 1.

bucket

<

12> <

Tip: add

1 13>.

,

0.5 bucket

body

pad

.

pad

Body2 Part Body

add. .

172

12> 2.

13>

PartBody

Work Object) <

(Specification Tree PartBody 3

14>

"Up to plane"Type

Define In

pad

14> 3. 11

Wireframe and Surface Design yz Plane 2 (Plane3), 14

(Plane4)

(Plane5) 5 Plane 4. <2>-1 yz Plane

offset

Plane

(Plane2),

Plane2 yz Plane

.

PartBody Insert Body3 Plane3 < mirror

(Plane1), 10.5

Body3 PartBody

173

add

15>

1

solid <

pad 16>

Body3

Tip:

Cuts part by sketch plane

Plane

solid

.(

15

)

15>

16>

5. PartBody Insert Body4 1 18> solid

pad

Plane3

Plane4

"Up to plane"Type Body4 PartBody

line

circle

spline <

17>

mirror . pad

add<

Body4 yz Plane 19>

17>

18>

174

mirror

<

19>

6. PartBody yz Plane <

20>

Body5

Plane2, Plane5

<

add<

21>

pad

Mirrored extent 21.5 mirror solid

22>

20>

21>

<4> Bucket 1. Bucket

Bucket

Length1/Length2

175

.

pad

, Insert Body5

Bucket

<

23> pad

Limit:1

<

First Limit:1.5 solid

.<

24>

23>

<

2. Insert Body6 Bucket pad

solid

Rectangular Pattern

<

25>

, Second Limit:1

. solid

solid

Body6

26>

<5> solid

24>

, First Limit:1.5

25>

Solid

, Second

.

176

add<

26>

1. Part1

Apply material

(Metal Steel) <

.

27>

CATIA

(Young Modulus, Poisson Ratio, Density,

Thermal Expansion, Yield Strength)

<

.

27>

177

178

CATIA V5

Loader

Assembly

CATIA V5 Assembly Design Assembly Design (Bottom-Up)

(Top-Down) .

(Concurrent Engineering)

,

. . Analysis

, Bill of Material

.

1. Assembly Design Start Menu

<

1>

179

.

Assembly Tool

Product Structure Tool :

Move :

/

,

Constraints :

,

Part

,

,

,,

2. Bucket, Arm(#1) Assembly

180

), ,

,

,

,

<

<

3>

<

4>

2> Product1

.

(Existing Component) .

.

Part - Bucket Arm(#1)

Assembly

. ,

. Part

(Manipulation) . <

Part .

181

.

5> Manipulation

.

<

6>

<

7>

(Coincidence Constraint) .

182

Bucket Arm(#1)

.

<

7>

.

<

8>, <

9>

.

183

(Contact Constraint)

.

<

10> Bucket Arm(#1) Assembly ,

. Contact Constraint

.

3. Arm(#2) Assembly Bucket Arm(#1)

Arm(#2)

.<

184

11> Arm(#2)

.

<

12>

Arm(#1)

,

.

.

Arm(#2)

(Coincidence Constraint)

. 13>

.

185

.

Hide/Show Assembly

Part Part Design

Hide/Show <

14>

.

,Assembly Design

Hide

(Coincidence Constraint)

.

186

,

Geometry . <

15>

.

<

16> Arm(#1) Arm(#2)

Arm(#2) 18>

Part

.

(Manipulation)

. <

.

187

17>

, <

/ 17>

/ . (update)

"With respect to constraints" /

.

188

.

, /

<

19>

,

.

4. Link Assembly <

20>

Link

.

189

<

21>

Bucket

,<

22>

.

190

<

23>

Bucket Link Assembly

(Manipulation)

Link <

. Link Arm(#2)

24>

191

.

.

Link Arm(#2) Assembly. <

<

26> Link

Assembly

25>

Part

.

192

.

5. Load(#1) Assembly <

27> Load(#1)

<

28>

.

Arm(#2) Load(#1)

.

193

Part

Show

.

Arm(#2) Load(#1)

<

30> Load(#1)

.<

29>

Assembly

.

194

6. Load(#2) Assembly Load(#2)

<

.<

32, 33>

31>

(Coincidence Constraint)

Load(#2) Arm(#1) Assembly.

195

(Contact Constrain)

Load(#2) Assembly <

34>

196

.

Part Assembly

,

Part

Part ,,

. < ,

)

.

(Define Multi Instantiation)

35> Define Multi Instantiation .

197

.

(

7. Cylinder(#1) Assembly Cylinder(#1)

.<

.<

36>

37>

198

. Body, Cylinder Assembly Load(#1)

.

(Manipulation)

<

199

39>

.<

38>

, .

8. Cylinder(#2) Assembly Cylinder(#2)

#1

.

40>

200

Cylinder(#2) Assembly <

41> .

9. Body Assembly Assembly

Body Assembly. <

201

42> Body

.

Body Assembly Assembly

. Assembly

. <

43> Body

.

Constraints Hide/Show Assembly Constraints Hide

.<

.

44> Constraints Hide

< .

202

43>

Constraints

Roader

Assembly

.

Part Assembly

203

Assembly.

204

205

206

207

< 1.> Mesh Mesh Local mesh size Mesh size

. Mesh

. .

208

Analysis Workbench Global Mesh . Mesh .

Size Global Mesh

, sag

Mesh

.

.

209

Mesh Linear, Parabolic Element Type

Local mesh sag Local .

. .

.

210

Local size

Add

Local Mesh . Box Local mesh size

.

Box

211

.

OK

Local sag

.

.

212

Add

.

Local sag . Box Local Mesh Sag

Box

213

.

OK

.

OK

.

214

Local Mesh Size .

Local Mesh Sag

Local Mesh

.

215

Element Type .

Local Mesh

216

Adaptivity Box Adaptivity Box

. .

Compass Adaptivity

.

217

Adaptivity Compass

. .

Compass

.

. 0%

.

218

0%

.

. Adaptivity Box

AdaptivityBox Adapt

14.642

.

Adapt . . Adapt Adaptivity

219

.

.

220

OK

.

Stress Von Mises

.

221

.

Adaptivity Box

.

222

< 2.> ANALYSIS ANALYSIS 1. 2. 3. ANALYSIS

. . . .

223

. .

224

Analysis Workbench

Part Design

Generative Structural Analysis

.

.

225

Static Analysis

)

Static Case

.

. . .

226

Clamp

OK

.

.

227

Force Geometry Virtual Part Force .

Force

.

.

228

Supports OK

Compute Compute

. .

. .

229

OK

.

230

Analysis

.

231

232