Catia Book
Short Description
Catia...
Description
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
2. offset plane
offset 35mm
Sketch
plane
.
constraints
1
.
.
3. bottom line pad top distance constraint
4. sketcher
coincidence constraint . dimension
offset plane
8mm
the vertical line .
(
Hint: Mirrored Extent option
Detent Pocket 1. main pad
offset 20mm
plane
2
.
16mm) catch pad
pad back
.
2. offset plane Plane”
3.Exit sketcher
sketcher ,
,
“ Part by Sketch
pocket
constraint
, pocket tool
9.5mm
3
profile
detent pocket
.
.
Clip Design 1. main pad
2. clip
Sketch
sketcher
.
.
4
3.
line pad top right point detent constraint
4. sketcher End of step
coincidence constraint . offset plane coincidence constraint .
create 3mm long clip using the pad tool
Connector Housing (2): Dressing-up the Connector Drafting Surfaces Pad 5
.
1. perimeter face (5 faces) neutral element .
2. lower upper face .
3deg
neutral element
draft
connector step face
Filleting Edges 1.
upper and lower edge
1mm
6
fillet
.
. connector
3deg draft
2. fillet
corner edge .
fillet
. top
1mm,
Shelling the Part Pocket 1. connector 1mm thickness remove .
shell
Fillet 1. part
1mm fillet
.
7
. clip
2mm radius
2.
element
Hide
.
Creating a Hole 1.
right edge
15mm, front edge
10mm
.
8
3.5mm diameter
Hole
Creating a Pattern 1. hole object first hole direction front edge
rectangular pattern first hole 40mm .
. Using the as the . pattern
Adding Standoffs and Reordering 1. part
profile
, standoff
9
constraints
.
2. sketcher
3. specification tree
Pad tool
hole
4. Use rectangular pattern
4mm standoff
standoff
standoff
10
.
, hole
duplicate
.
hole
.
Connector Housing (3): Modifying the Part Editing Feature Parameters 1. First pad (Pad. 1)
width
35mm
40mm
11
.
2.
connector
.
Sketch 1. tangent line perpendicular
Pad. 4 .
12
. constraint
2. circle
line
3. sketcher
Trim
.
part
update
. (Auto Update
Fillet 1. 1mm
1.5mm
fillet radius
. (EdgeFillet.1)
13
off
)
fillet radius
.
Hole Type 1. Hole.1 .
diameter 5mm
depth 1.5mm
14
Counter bored Hole type
Feature Properties 1. Catch (Pad. 2)
properties
red
.
Hinge exercise pattern tool hinge
sketcher, constraints, pad, pocket, hole, draft, fillet, mirror and hinge part . . hinge .
15
1. new CAT Part 2.
triangular pad
XY plane 3.
.
Profile tool
main pad sketcher outer profile
. . .
16
.
Hint: triangle
4. Constrain
vertical constraint
.
17
.
5. Sketcher height
6. pocket pocket
7.5mm
, triangle sketch main pad .
. main pad Hinge thickness pad
.
link
positive OZ
plane sketcher Hinge surface pocket profile
18
. pocket .
7. pocket
profile
8. triangle distance option
.
profile .)
Constrain
19
.(Hint: contextual menu
9. sketcher OZ pocket
10.
triangle .
bearing
11. 15 mm radius
circle
Parameter
. main pad
pocket
20
sketcher
coincident
positive
.
constrain(contextual menu)
12. sketcher type
OZ hinge
.
cylinder pad .
21
up to plane limit
13. other bearing & paste user pattern
main pad 14. grid
first cylinder pad duplicate . .
bottom surface 2 point
duplicate bearing
sketcher . Sketch.4
15 point pocket triangle menu) . (small triangle part
22
tree
orientation
.
simple copy
. .
coincide (contextual .)
16. sketcher
cylinder pad Sketch. 4.
Pattern
. pattern
. “keep specifications” option
bearing 17.
6
User
5mm radius
. hole .
fillet
23
.
.
18. hinge draft angle . pulling direction angle 3 degrees, Neutral element hinge
19.
edge
radius 2mm
fillet
.
24
the positive OZ .
20.
bottom face
21. bearing - Hole icon - Hole center
symmetry plane
hinge symmetrical part
,
.
. edge
.
25
.
- Hole
-
face
parameter
.
.
26
-
22.
.
hole cylinder pad (tree Sketch.4
. sketch . . ). “Keep specifications” option
27
.
23.
.
.
Angle Bracket 28
Sketcher and Part Design workbench small bracket . extruding .
Profile sketcher
Pad
Step 1: Part Design Parameter 1. new Part .
, Tools -> Options -> General -> Units
2. Tool -> Options -> Part -> Sketcher graduation 10 .
Sketcher
Primary Spacing
3. Tools -> Options -> Part -> Display
Relations
check
4. OK
, Option
Step 2: Bracket Bracket
sketches
mm 20 mm , .
.
Pad dimension pads
hole
. . 3mm
29
.
30
1. XY plane Sketcher . dimension
. Rectangle icon .
31
2. Sketcher
sketch
part
base pad
height 26 mm
.:
32
Pad
.
3. XY plane Pad
4. Height 4 mm
Sketcher
.. Use Profile dimension
constrain
Second Pad
Step 3: Bracket angle
.
.
Pilot Hole and the Angular Pad (clevis)
.
33
profile . , extrusion limits
angular Plane
24 Degrees Plane .
5.
flange hole
YZ plane 24degree pilot hole center plane .
pilot hole center pilot hole
reference edge . pad hole Part drawing . Up to Next option .
model
flange . hole
.
, Hole feature icon . dimension
6. reference edge , Hole feature icon pad hole . dimension hole drawing . Up to Next option .
34
hole hole
hole
. Part
7. rounded edge pad hole edge center
icon
, Hole feature icon . hole diameter (3) . Up to Next option
hole hole .
pilot hole center 24 Degree plane View -> Toolbars -> Reference Elements (Extended) .
35
. rounded
. Plane
8. Plane icon ,”Angle/Normal to Plane” reference pad . and the as the for the plane hole . _24 Degrees Plane .
9. To redefine the as the In Work Object Part Body Part Body . Define In Work Object_
36
plane ._. rotation axis pilot
cursor tree contextual menu
.
10.
plane
profile
constrain
dimension
11.
a thickness 4 mm
(
sketch
tool
Sketcher
. profile
.
pad
Rectangular Pattern tool Insert/Transformation Features
. (2 limits option
Clevis .)
37
).
.
12. Rectangular Pattern Icon direction red edge
, .
Step 4: Hole and Fillet
Clevis , reference instances 2, spacing 16 mm .
Clevis
13. In order to define a concentric hole R 13 edge 6mm diameter
Clevis
the Hole tool , ”Up to Last” Option
38
Clevis .
.
Edge Fillet .)
fillet
14. R3 fillet
. (5 edges).
.(
multi-select edges
15. Create the R6 fillets (2 edges).
39
16. Finally, create the R8 fillets (2 fillets).
Meat Mincer Screw Sketcher, Part Design, Wireframe and Surface screw .
40
CATIA .
Tools -> Options
Start menu
Wireframe and Surface Workbench
, millimeter
.
41
Tools -> Options .
Profiles
, sketcher grid
parameter
Helixes
screw
.
42
element
screw
.
helix
strait line
.
. (twelve points).
12
12
helix
.
43
plane 12 profile profile corner Helix coincident
,
. then we are going to make each .
.
1. Sketcher icon
XY plane
44
.
2. Profile icon
, grid
3. Exit icon
Sketcher
4.
Line icon .
profile
.
.
, dialog box
Line type
5. In order to create the first of the line point , contextual menu Create Point )
45
Point-Point option
, cursor Point 1 . ( third mouse button
6. Point Coordinates option
new dialog box .
7. X=, Y= and Z= field OK .
point coordinate
8. line second point contextual menu Point
9 Point
. dialog box
X=0, Y=0 and Z=0
point 2 field . (third mouse button
new dialog box
. .
).
. dialog box
46
Point type
Point type
Coordinates option
10. X=, Y= and Z= field OK . 11.
line
.
point coordinate point
.
47
X=0, Y=0 and Z=200
.
. Line dialog box
.
OK
12. icon On curve
13. cursor ,
sketch
point
, .
.
sketch
sketch
. .
48
.
,
Point point type option
circle
14. point 15.The point .
, dialog box .
OK
. 11
.
16.
17. helix
tapped helix ).
starting point
.Helix icon
point
49
. ( Spline icon
.
18. dialog box
19. dialog box
Axis field
parameter
.
line
.
50
.
OK
.
.
20. helix
.
11
.
51
helis
.
21.
XY plane
, helix
. 22. XY plane
23. helix
, 12
. Plane icon .
OK
.
52
.
point
profile
.
24. Sketcher icon
25. Profile icon
,
, grid
plane
,
53
profile
.
:
26. contextual menu
,
Constraint
54
.
27. With the Ctrl key
55
28. Constraint Defined in Dialog Box icon 29. Coincidence option
dialog box
. , OK
.
56
.
30.
helix
11
. .
57
coincidence
31. Exit icon
Sketcher
Screw
. .
solid part
.
Loft helix
guide lines
1. Part Design workbench
solid loft . (Start menu
58
).
.
2. Loft icon 3.
4.
.
sketch
.
, closing point .
5. Guide field
section
orientation
.
59
closing points
6.
helix
OK
.
.
60
Tri-Tangent Fillets tri-tangent fillets
7. Tri-Tangent Fillet icon . ).
.
. (Edge Fillet icon
61
8. thread
.
9. remove
OK
.
.
62
10.
tri-tangent fillets
thread
.
Variable Radius Fillets variable radius fillets
63
.
.
1. Ctrl key
edge
.(
2. Variable Radius Fillet icon ). 3. cone box
.
radius
thread
)
. ( Tri-Tangent Fillet icon
radius dimension 10 OK
64
. .
dialog
4.
cone
3
radius
65
5
10
5.
, cone main dialog box
4 OK
radius .
.
66
5
15
Pad pad
6. Sketcher icon
.
,
face
67
.
7. Hexagon icon 8. sketcher
9. grid
. (Rectangle icon
origin
,
.
point
.
68
. ).
.
10. Exit icon
Sketcher
.
69
11.
Pad icon
12.
. sketch
( pad
,
parameter
OK
pad .):
.
70
.
Groove chamfer
groove function
71
.
13. Sketcher icon
14. Profile icon
profile 15. screw
YZ plane
grid
,
.
profile
contraints
.
,
.
screw profile constraints top face , profile edge
16. Constraints Defined in Dialog Box icon 17. Coincidence option
.
72
.
Ctrl key .
..
18. coincidence creation
19.
method , coincidence constraint
OK
edges .
73
.
20.
angular constraint
21.
edge
:
22.
edge
.
.
74
Constraint icon
.
23.
angular constraint
24. angular value box :
angular constraint
, angular dimension
75
double click
Click
.
.
dialog
25. value field
26. 27.profile
60
, OK
.
linear constraint point
. :
76
Constraint icon
.
28. screw
29.
edge
constraint
:
position
constraint
77
Click
.
30. dimension value box :
31. value field
46
, dimension
, OK
.
78
double click
.
dialog
32. groove 33. grid
34. Exit icon
,axis ,
axis
, Axis icon :
Sketcher
.
79
.
, groove
35.
Groove icon
,
,
. 36. groove
parameters
OK
:
Pad
80
.
sketch
pad
:
37. Sketcher icon
38. Circle icon
,
face
.
81
:
39. circle
center , origin
40. grid
, circle
41. Exit icon 42.
sketch OK
point
Sketcher
, Pad icon
43.
radius
.
.
. ,
parameter .):
82
pad
.( pad
.
83
Hole hole
44. Hole icon 45.
face
:
. (face
circular
, the hole
face
center
):
46. dialog box
parameter
, Threaded button
84
Specification
button
.
47. Thread Definition dialog box
parameter
48. Select OK in the Hole Definition dialog box :
85
OK
, OK
.
.
Chamfer chamfer
1. Chamfer icon
:
.
86
2.
edge
:
3. Chamfer Definition dialog box
parameter
, OK
:
4. Meat Mincer Screw
save
.
Tee Fitting designing parts
Sketcher tee fitting screw
Part Design workbenches design .
87
.
CATIA ).
,
Tools -> Options command
Part Design Workbench
, millimeter
88
(Start menu
.
Using the Tools -> Options command :
, sketcher grid
parameter
Creating Pads Tee Fitting
1/4
pad
89
.
pad
:
.
.
90
.
1. Sketcher icon 2. Rectangle icon
, XY plane
.
grid
,
91
rectangle
:
3. Exit icon 4.
Sketcher
Pad icon
5. Sketcher icon
. ,
,
parameter
face
92
pad
:
:
6. grid
,
7. Exit icon
8.
Pad icon
line
:
Sketcher
,
.
parameter
93
pad
:
9. Sketcher icon
10. Using the grid
,
,
face
:
line
:
94
11. Exit icon 12.
Pad icon
13. Sketcher icon
Sketcher ,
. parameter
,
face
95
pad
:
:
14. grid
15.
,
corner
profile
:
:
96
16. grid
,
strait line
:
97
17. Trim icon
trim the corners with the strait line in order to get:
98
18.
19. Exit icon
line
:
Sketcher
.
99
20.
, Pad icon
,
parameter
pad
:
:
Draft Angles and Fillets ,
draft angle
(green)
100
fillet
(red)
:
1. Draft Angle icon
parameter
draft angle
:
2. Draft Angle icon
parameter
draft angle
:
101
3. Draft Angle icon
4. Edge Fillet icon
parameter
edge
parameter
102
draft angle
:
fillet
:
5. Edge Fillet icon
edge
parameter
fillet
:
6. Edge Fillet icon
edge
parameter
fillet
:
103
:
Holes ,
hole
:
104
1. Hole icon
,
2. dialog box
parameter
face
:
(Extension tab
105
):
3. dialog box
parameter
4. Extension tab
, dialog box
(Type tab
):
Positioning Sketch icon
.
106
5. Ctrl key
,
edge
point
6. Constraints Defined in dialog Box icon 7. dialog box
Concentricity option
. , OK
107
.
.
8. Exit icon
Sketcher
.
:
9. Hole icon
,
face
:
108
10. dialog box
parameter
(Extension tab
11. dialog box
parameter
(Type tab
109
):
):
12. Extension tab
, dialog box .
icon
13. Ctrl key
Positioning Sketch
,
edge
110
point
.
14. Constraints Defined in dialog Box icon 15. dialog box
Concentricity option
16. Exit icon 17.
Sketcher
. , OK
.
:
111
.
Mirroring mirror
.
112
1. Mirror icon
2. dialog box
,
OK
face
:
.
113
:
3. Mirror icon
,
face
:
114
4. dialog box
OK
.
:
115
Shaft part body
1. function
tee fitting solid body .
, .
. .
main part body
,
Body body
.
Insert + Body .
116
main
tree
:
2. core creation Hide/Show icon
,
No Show
, Part Body
117
part body .
.
,
shaft
3. Sketcher icon 4. grid ,
5.
shaft , grid
:
profile
,
, ZX plane constrain
, axis
axis :
118
. .
.
Axis icon
6. Exit icon 7.
Sketcher
Shaft icon
8. dialog box
. ,
parameter
sketch , OK
:
119
. .
Fillet fillet
1. Edge Fillet icon
:
,
edge
:
120
parameter
fillet
..
Shaft shaft
1. Sketcher icon 2. grid ,
:
, ZX plane profile :
.
121
3.
shaft , grid
4. Exit icon 5.
Shaft icon
,
, axis
Sketcher
axis :
.
. ,
sketch
122
.
Axis icon
6. dialog box
parameter
, OK
:
Fillet fillet
:
123
.
1. Edge Fillet icon ..:
,
edge
:
124
parameter
fillet
Body main part
core
.
125
1. tree
Show part body PartBody .
2. core body object +Remove function
. Hide/Show icon
cursor (tree (MB3).
:
126
)
, contextual menu
Body.2
Tee Fitting
save
.
CATIA V5 Assembly Design Assembly Design
Part (Top-Down)
127
(Bottom-Up)
. (Concurrent Engineering)
, .
. Analysis
, Bill of Material . CATIA Part Design, Generative Version 4 Data
V5 Drafting, DMU Navigator . 1. Assembly Design
(1)Pull-Down Menu (2) Workbench
Assembly Design Assembly Design
. .
128
Workbench Icon ,
1
2. Assembly Design
Dialog Box .
Icon
Assembly Tool
129
. Assembly Design
.
# Product Structure Tools ( Product ( ) Part
): ,
,
, Tool.
- Pop-Up Menu
Pull-Down Menu
- New Component ( .
- New Part ( .
Icon
) :
) :
- New Product ( .
Insert
) :
- Existing Component (
- Replacement component ( - Manage Representations ( .
.
Sub Assembly
Assembly Design
Assembly Design
) :
Assembly
) : Assembly ) :
)
Part
Part
. Assembly
130
Product(
- Define Multi Istantiation ( .
) :
, ,
,
131
, .
- Fast Multi Istantiation ( . Icon
# Move ( ,
) :
Define Multi Istantiation .
) :
- Manipulation (
/
):
,
X,Y,Z
.
, Dialog Box
- Snap ( Geometry
) :
Geometry Point, Line, Plane
132
.
Geometry .
.
- Explode (
) : Assembly . Update
.>
133
# Constraints (
) : Assembly Design .
- Coincidence Constrain (
):
,
,
134
.
<
>
- Contact Constraint (
):
,
.
135
<
>
- Offset Constraint (
):
<
>
.
136
>
- Angle Constraint (
):
<
>
Component
.
137
<
<
320deg
>
>
- Fix Component (
):
.
138
- Fix Together (
139
.
> ) : Pull-Down Menu --> Tools --> Option --> Product .
.>
140
- Activate / Deactive Constraints ( . Update - Change Constraint ( change .
<
Constraint .
) : Constraint
Type
Constraint
- Reuse Pattern ( Patten
<
) :
Constraint
.> ) :
Part
Pattern
Part .
Component
.>
141
<
Component
Part
Pattern
142
.>
<
<
Part
.>
,
.>]
143
3. Analyze : Analyze Pull-Down Menu
, Analyze
Compute Clash
- Compute Clash : Clash :
.
.
,
Bill of Material .
.
144
.
<
main-body
>
Clearance :
<
.>
- Bill of Material : txt, html, xls
.
145
CATIA V5
Loader 146
Bucket 1. Start menu . 2. yz plane <
sketch
1>
< line Tangency 3. <
(Wireframe and Surface Design)
,
CATIA
profile
.
1>
< circle
2> <
2>
trim
profile 3D mode 4> surface
< .
3>
147
Extrude
line
circle
<
3>
4. Part Design < 5> ( space
<
Thick Surface surface .)
< 5. Bucket Symmetry
4>
surface
hide
.
. hide
Swap visible
5> <
6>
(
.) 3D mode
pocket
148
.<
7>
<
6>
<
7>
bucket 1. Bucket
Top menu
Body
, bucket
<
8>
Project 3D Element
Insert
Body pad
.
trim
.
<
8>
2 . pad
< pad
9> <
10>
.
149
0.5
, 1
<
9>
<
3 . Specification Tree < Body Insert Body
11>
10>
Body2
bucket
mirror Bucket solid
.
yz plane
Body2 mirror
Part solid
.
< 11> Bucket , 1.
bucket
0.5
<
12>
1
pad
.
pad
< Body2 Tip: add
Part Body
add body
13>.
. .
150
,
bucket
<
12>
2.
<
13>
PartBody (Specification Tree PartBody Define In Work Object ) < 14>
plane"Type
< 3. 10.5
3 "Up to
pad
14>
Wireframe and Surface Design (Plane2), 11 (Plane3), 14 (Plane4) Plane2
yz Plane offset
yz Plane
2
(Plane1), Plane
(Plane5) 5
Plane
. 4. -1 15> Body3
PartBody 1 PartBody
pad
Insert Body3 Body3
add
yz Plane
solid
151
Plane3
<
mirror <
16>
Tip:
Cuts part by sketch plane
Plane
solid
<
.(
15>
<
5. PartBody
Insert Body4
spline
17>
< mirror
<
18>
Plane add
<
line
Plane3 1
pad
circle Plane4
. "Up to plane"Type solid
19>
17>
)
16>
mirror <
15
<
18>
152
pad Body4
Body4 PartBody
yz
<
19>
6. PartBody 21.5
yz Plane pad
pad
<
20>
Mirrored extent
, Insert Body5
<
Plane2, Plane5
Body5
add
<
<
20>
mirror
21> solid
22>
<
21>
Bucket 1. Bucket . Bucket
Bucket
<
Length1/Length2
23>
First Limit:1.5 , Second Limit:1
pad
153
solid
.<
24>
<
23>
<
2. Insert Body6
Bucket
Limit:1.5 .
24> <
, Second Limit:1
<
add
<
25>
, First
pad
Rectangular Pattern Body6
25>
solid
solid
solid
26>
<
26>
Solid
solid
.
1. Part1 Apply material . (Metal Steel )< 27> CATIA (Young Modulus, Poisson Ratio, Density, Thermal Expansion, Yield Strength) .
154
<
27>
155
156
CATIA V5 CATIA V5
Loader
Assembly
Assembly Design
Assembly Design
(Top-Down) (Bottom-Up)
(Concurrent Engineering)
.
, . . Analysis
, Bill of Material . 1. Assembly Design Start Menu
<
Assembly Tool
157
1>
.
Product Structure Tool :
Move :
/
Constraints :
(
,
,
Part
,
,
,
,
,
,
),
,
2. Bucket, Arm(#1) Assembly ,
<
2>
(Existing Component)
Product1
.
<
<
3>
4> .
.
Part - Bucket
.
Arm(#1)
158
.
Part
Assembly 5> Manipulation
<
6> .
.
, .
(Coincidence Constraint) < 7>
159
(Manipulation) Part
Bucket .
. < .
Arm(#1)
< 7> Constraint)
.
< .
8>, <
9>
(Contact .
160
<
10>
Bucket
Arm(#1)
Assembly ,
.
161
. Contact Constraint
3. Arm(#2) Assembly Bucket
Arm(#1)
Arm(#2)
. <
11>
Arm(#2)
.
<
12>
,
. .
Arm(#1)
Arm(#2)
(Coincidence Constraint) .
. <
13>
.
162
Hide/Show Assembly Design Design
.<
, Hide < 15>
14>
Hide/Show Geometry (Coincidence Constraint) .
163
Part Part . ,Assembly .
<
16>
Arm(#1)
Arm(#2)
164
.
Arm(#2) 17>
(Manipulation)
. < , <
18>
.
165
Part
/ < 17> respect to constraints" / .
/ . ,
(update)
<
19>
/
.
,
.
4. Link Assembly
166
"With
<
20>
Link
<
21>
Bucket
.
,<
167
22>
.
<
23>
Bucket
Link Assembly
. Link
Arm(#2)
.
(Manipulation)
Link
168
<
24>
.
Link
Arm(#2)
Assembly
. <
25>
.
<
26>
Link
Assembly
.
169
Part
5. Load(#1) Assembly <
<
27>
28> Show
Load(#1)
Arm(#2) .
.
Load(#1)
170
.
Part
Arm(#2)
<
30>
Load(#1)
Load(#1)
.<
Assembly
171
29>
.
6. Load(#2) Assembly Load(#2)
.<
31>
172
<
32, 33> (Coincidence Constraint) Load(#2) Arm(#1) Assembly .
Load(#2)
Assembly
173
<
(Contact Constrain)
34>
.
Part Assembly , Part Multi Instantiation) 35> Define Multi Instantiation , , , )
. Part . .
174
(Define . < (
7. Cylinder(#1) Assembly Cylinder(#1)
.<
36>
.<
175
37>
. Body, Cylinder . < (Manipulation)
38>
Assembly
, Load(#1) <
39>
. .
176
8. Cylinder(#2) Assembly Cylinder(#2) <
#1
.
40>
177
Cylinder(#2)
Assembly
<
41>
.
9. Body Assembly Body
Assembly .
Body
Assembly
178
.
<
42>
Body
Assembly .< 43>
. Assembly Body Assembly
.
Constraints Hide/Show Assembly Constraints < 43> Constraints Constraints Hide .
179
. Hide
. <
44>
Roader Assembly Assembly Assembly .
.
180
Part
181
182
183
184
<
1.> Mesh Mesh
.
Local mesh size Mesh size .
Analysis Workbench Global Mesh Mesh
Mesh
.
Mesh
.
. .
185
Size
Global Mesh
, sag
.
Mesh Linear, Parabolic Element Type
. .
186
Local mesh Local
Local size
sag .
.
Add
.
187
Local Mesh Box
OK
. Local mesh size
Box
.
188
.
Local sag
Add
.
.
189
Local sag Box
OK
. Local Mesh Sag
Box
.
190
.
OK
.
Local Mesh Size .
Local Mesh
191
Local Mesh Sag
Element Type .
.
Local Mesh
192
Adaptivity Box Adaptivity Box
. .
193
Compass
Adaptivity Adaptivity
. .
Compass
.
Compass
.
194
. 0% .
0%
.
. Adaptivity Box
14.642
.
195
AdaptivityBox Adapt
. Adapt
Adapt Adaptivity .
.
.
196
OK
.
197
Stress Von Mises
.
.
198
Adaptivity Box
<
.
2.> ANALYSIS
ANALYSIS
.
199
1. 2. 3. ANALYSIS
. . .
. .
200
Analysis Workbench
Generative Structural Analysis
Part Design
.
.
201
Static Analysis .
Static Case
(
)
. . .
202
Clamp
OK
.
.
203
Force Force
Force
Geometry
Virtual Part .
.
204
.
Supports OK
Compute Compute
. .
. .
205
OK
.
206
Analysis
.
207
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