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  SolidWorks® 2008 Basic SolidWorks Evening Course
Course Duration:
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6 sessions, 3 hours each, over 3 weeks
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| Price: |
$800 before G.S.T
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| Time: |
Tuesdays & Thursdays, 6:30PM - 9:30PM
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| Course Description: |
This course is designed for SolidWorks users to become productive with the SolidWorks mechanical design automation software. This 18hour course will provide comprehensive hands-on on the design skills using SolidWorks to build parametric models of parts, basic assemblies and their drawings.
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| Prerequisites: |
Mechanical design experience.
Knowledge of, or experience with the WindowsTM operating system.
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| Qualified Instructors: |
 SeaCAD Technologies Pte Ltd is an Authorized Training & Support Center. All of our instructors have been certified by SolidWorks for training and support.
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| SolidWorks® 2008 Basic SolidWorks Evening Course |
| Course Outline : Session 1 (Week 1, Tuesday) |
- SolidWorks Overview
An introduction to SolidWorks modeling concept and user interface.
- Introduction to Sketching
Create basic sketch functions. Establish sketch relations between pieces of geometry. Understand the state of the sketch and the rule that govern the sketch.
- Basic Part Modeling
Choose the best profile for sketching and the proper sketch plane. Create basic feature like extrude boss, extrude cut, and fillet. Make a change to a dimension.
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| Course Outline : Session 2 (Week 1, Thursday) |
- Modeling a Casting or Forging
Create fully defined sketches through the use of dimensions and geometric relationships. Use the view display and modification commands. Copy and paste features.
- Patterning
Use several different types of patterns. Use geometry patterns properly.
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| Course Outline : Session 3 (Week 2, Tuesday) |
- Revolved Features
Create revolved features. Apply special dimensioning techniques to sketches for revolved features. Calculate the physical properties of a part.
- Configuration of Parts
Using configurations to represent different versions of a part within a single SolidWorks file.
- Design Tables and Equations
Link dimensions values together to capture design intent. Create equations. Automatically create design tables. Use design tables to create families of parts.
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| Course Outline : Session 4 (Week 2, Thursday) |
- Part Editing
Diagnose various problems in a part and repair them. Utilize all the available tools to edit and make changes to a part.
- Design Changes
Modify existing geometry using Rollback function and understand the parent-child relation between features.
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| Course Outline : Session 5 (Week 3, Tuesday) |
- Bottom-up Assembly Modeling
Create a new assembly. Insert components into an assembly using all available techniques. Add mating relationships between components. Utilize the assembly-specific aspects of the FeatureManager design tree to manipulate and manage the assembly. Insert sub-assemblies. Use part configurations in an assembly.
- Using Assemblies
Perform mass properties calculations and interference detection. Perform design verification using Physical dynamics and Physical simulations. Create an exploded view of an assembly. Add exploded lines.
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| Course Outline : Session 6 (Week 3, Thursday) |
- Top-Down Assembly Modeling
Build a new part in the context of an assembly by employing Top-Down assembly modeling Techniques.
Create features in the assembly context by referencing geometry in mating parts.
Use Hole Series
Remove external references from a copied part
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