simulation model design essentials...workshop 3a screwdriver assembly workshop 3b reinforced panel...
TRANSCRIPT
Simulation Model Design Essentials
R2014x
Course objectives Upon completion of this course you will be able to:
Create basic native solid geometry.
Create basic native shell geometry.
Create assemblies of parts.
Targeted audience
Simulation Analysts
Prerequisites None
About this Course
1 day
Day 1
Lesson 1 3DEXPERIENCE Platform Overview
Workshop 1 Getting Started with the 3DEXPERIENCE Platform
Lesson 2 Working with Geometry
Workshop 2a Intersecting Pipes Geometry
Workshop 2b Screwdriver Geometry
Workshop 2c Reinforced Panel Geometry
Workshop 2d Connecting Rod and Piston Geometry (optional)
Lesson 3 Creating Assemblies
Workshop 3a Screwdriver Assembly
Workshop 3b Reinforced Panel Assembly
Workshop 3c Cargo Crane Assembly
Workshop 3d Crimp Forming Assembly (optional)
Workshop 3e Connecting Rod and Piston Assembly (optional)
Join the Community!
Legal Notices
The Software described in this documentation is available only under license from Dassault Systèmes
and its subsidiary and may be used or reproduced only in accordance with the terms of such license.
This documentation and the software described in this documentation are subject to change without
prior notice.
Dassault Systèmes and its subsidiaries shall not be responsible for the consequences of any errors or
omissions that may appear in this documentation.
No part of this documentation may be reproduced or distributed in any form without prior written
permission of Dassault Systèmes or its subsidiary.
© Dassault Systèmes, 2014.
Printed in the United States of America
The 3DS logo, SIMULIA and CATIA are trademarks or registered trademarks of Dassault Systèmes or
its subsidiaries in the US and/or other countries.
Other company, product, and service names may be trademarks or service marks of their respective
owners. For additional information concerning trademarks, copyrights, and licenses, see the notices at:
http://www.3ds.com/products/simulia/portfolio/product-os-commercial-programs.
Revision Status
Lesson 1 4/14 New for R2014x
Lesson 2 4/14 New for R2014x
Lesson 3 4/14 New for R2014x
Workshop 1 4/14 New for R2014x
Workshop 2a 4/14 New for R2014x
Workshop 2b 4/14 New for R2014x
Workshop 2c 4/14 New for R2014x
Workshop 2d 4/14 New for R2014x
Workshop 3a 4/14 New for R2014x
Workshop 3b 4/14 New for R2014x
Workshop 3c 4/14 New for R2014x
Workshop 3d 4/14 New for R2014x
Workshop 3e 4/14 New for R2014x
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Lesson content:
What is the 3DEXPERIENCE Platform?
3DEXPERIENCE Platform Architecture
Connecting to the 3DEXPERIENCE Platform
3DEXPERIENCE Platform Interface
Exploring
Authoring
Importing and Exporting Data
Saving Data
Local Save
Deleting Data from the Database
Deleting Data while Authoring
Duplicating Data
Workshop Preliminaries
Lesson 1: 3DEXPERIENCE Platform Overview
1 hour
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In this workshop, you will get familiar with 3DEXPERIENCE platform and learn basic operations.
After completion of this exercise, you will be able to:
a. Connect to a database
b. Navigate through the 3DEXPERIENCE Platform
interface
c. Import an assembly of parts
d. Explore an assembly of parts
e. Rename objects
f. Change the look of the authoring window
g. Search an assembly of parts in the database
h. Duplicate, delete and save entities
Workshop 1: Getting Started with the 3DEXPERIENCE Platform
30 minutes
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Lesson content:
Working in the 3DEXPERIENCE Platform
Importing vs. Building CAD Models
Importing CAD Models
Building CAD Models
Layout
Specification Tree
Data Structure of 3D Parts
Hybrid Design
Part Design Essentials
Generative Wireframe & Surface
Patterning
Stacked Commands
Lesson 2: Working with Geometry
45 minutes
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In this workshop, you will create a three-dimensional model of two pipes intersecting each other. A one-quarter
symmetry model will be used.
After completion of this exercise, you will be able to:
a. Create three dimensional solid geometries.
b. Use sketch-based features to refine the geometry.
Workshop 2a: Intersecting Pipes Geometry
30 minutes
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In this workshop, you will create a three-dimensional model of a flat head screwdriver. The handle of the
screwdriver is modeled as one part and the shaft and the tip are modeled as another.
After completion of this exercise, you will be able to:
a. Create three dimensional solid geometries.
b. Use sketch-based features to create and refine geometries.
Workshop 2b: Screwdriver Geometry
1 hour
Shaft
Tip
Handle
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Workshop 2c: Reinforced Panel Geometry
1 hour
In this workshop you will consider the geometry of a reinforced panel such as the one that might be used in the
design of airplane fuselage structures.
The model under consideration is shown below. The panel is reinforced in both the longitudinal and
circumferential directions by beams with different cross sections. Since the panel is quite thin, it (as well as the
reinforcements) will be modeled using shell elements.
In this exercise you will focus on extracting surfaces from solid geometry and creating extruded and revolved
surfaces for shell modeling. After completion of this exercise, you will be able to:
a. Create extruded and revolved surfaces for shell modeling
b. Create extruded solid geometry
c. Extract surfaces from solid geometry for shell modeling
Panel Z-beam
L-beam
C-beam
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In this workshop, you will create the geometry of the components of a connecting rod and piston assembly.
After completion of this exercise you will be able to:
a. Create geometry using various Sketcher tools
b. Edit geometry using trim options
c. Constrain the sketches.
d. Dimension the sketches.
e. Create a base feature from a sketched profile.
f. Create extruded features (material addition and removal)
g. Create revolved features (material addition and removal)
h. Create dress up features.
Workshop 2d: Connecting Rod and Piston Geometry
1 hour
This workshop is
optional.
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Lesson content:
What is an Assembly?
Inserting Parts in an Assembly
Positioning Parts
Creating Multiple Part Instances
Part-Level Features
Publications
Lesson 3: Creating Assemblies
30 minutes
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In this workshop, you will assemble the components of a screwdriver assembly.
After completion of this exercise, you will be able to:
a. Create assemblies of part instances.
b. Use engineering connections to position parts.
Workshop 3a: Screwdriver Assembly
15 minutes
Shaft
Tip
Handle
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In this workshop, you will assemble the components of the reinforced panel relative to each other in a global
coordinate system.
After completion of this exercise, you will be able to:
a. Create an assembly of different 3D parts
b. Position the parts relative to each other using engineering connections.
Workshop 3b: Reinforced Panel Assembly
1 hour
Panel Z-beam
L-beam
C-beam
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This workshop considers the geometry of a light-service, cargo crane as shown below. You are to create a
wireframe model of the geometry.
After completion of this exercise, you will be able to:
i. Sketch wireframes.
ii. Extract geometry from a sketch.
iii. Mirror geometry
Workshop 3c: Cargo Crane Assembly
45 minutes
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This workshop considers the geometry of a wire crimp assembly as shown below. You will create the geometry
using a combination of sold and shell parts and then assemble it.
After completion of this exercise, you will be able to:
a. Create/extrude sketches.
b. Mirror sketch lines.
c. Cut geometry.
d. Position instances relative to each other
e. Create multiple instances using
assembly patterns
Workshop 3d: Crimp Forming Assembly
1.5 hours
This workshop is
optional.
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In this workshop, you will assemble the components of the connecting rod and piston assembly.
After completion of this exercise you will be able to:
a. Create a new assembly.
b. Add components.
c. Insert a new sub-assembly.
d. Reorder the structure.
e. Copy and paste components.
f. Fix a component.
g. Align and move components using the Robot.
h. Constraint components with engineering connections
Workshop 3e: Connecting Rod and Piston Assembly
1 hour
This workshop is
optional.