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Course Outline
Introduction
- Overview of SolidWorks fundamentals
Multibody Design Techniques
- Creating multibody parts
- Toggling visibility of tree items
- Pattern bodies
- Combining bodies
- Intersecting solid bodies
- Using the indent feature
- Deleting solid bodies
Saving Solid Bodies
- Differentiating between multibody parts and assemblies
- Utilizing the save bodies function
- Inserting new parts
- Modeling for rapid tooling
- Splitting parts
- Automating assemblies
Sketching with Splines
- Incorporating curves in sketches
- Effective use of splines
- Analyzing solid geometry
- Style and fit spline options
Introduction to Sweeping
- Basics of sweeping
- Sweeping with guide curves
- Utilizing the SelectionManager
3D Sketching and Curve Features
- Leveraging curve features
- Sweeping along 3D paths
- 3D sketching techniques
- Using helix and spiral features
- Combining curves
- Smoothing transitions
Threads and Library Feature Parts
- Bottle features
- Saving library feature parts
- Performance optimization
- Creating sweep paths and edges
Advanced Sweeping
- Sweeping options
- Configuring sweep settings
- Profile orientation
- Intersection curve features
- Visualizing sweep sections
Loft and Boundary Features
- Comparing complex features
- Lofting and boundary work
- Copying and modifying sketches
Advanced Loft and Boundary Features
- Incorporating additional curves in loft and boundary
- Centerline lofting
- Adding sketch segments
- Model cleanup
- Working with faces
Advanced Filleting and Other Features
- Fillet settings and parameters
- Fillet options
- FilletXpert
- Wrap and deform features
Smart Features and Components
- Exploring advanced feature patterns and configurations
- Automating design changes via smart features
- Utilizing design library components and customizable features
Finite Element Analysis (FEA)
- Introduction to FEA concepts
- Setting up FEA simulations in SolidWorks
- Applying materials and boundary conditions
- Meshing and model refinement
- Running static and dynamic analyses
- Interpreting FEA results
- Optimizing designs based on FEA feedback
Macros and Design Notebook
- Introduction to SolidWorks macros for automating repetitive tasks
- Creating custom tools, menus, and macros to boost productivity
- Utilizing the design notebook
- Integrating macros with the design notebook
Summary and Next Steps
Requirements
- Fundamental computer skills
- Understanding of mechanics and electronics
- Basic knowledge of SolidWorks fundamentals
Target Audience
- Mechatronics engineers
- Mechanical engineers
- Electrical engineers
- Electronics engineers
35 Hours
Testimonials (1)
The practices and the fact that you can share your screen for guidance from the trainer
