Solid Works Curriculum

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History of Solid Works

1995: SolidWorks launched by Dassault Systèmes as a 3D mechanical CAD software for Windows.
1990s–2000s: Gained popularity among engineers and designers for parametric 3D modeling and mechanical design.
2001: Introduced advanced simulation, assembly modeling, and design validation tools.
Evolution: Enhanced with sheet metal design, surface modeling, motion analysis, 3D rendering, and integration with PDM systems.
Current use: Widely used by mechanical engineers, product designers, and manufacturers to create 3D models, assemblies, simulations, and detailed engineering drawings for industries like automotive, aerospace, and industrial design.

Module 1: Introduction to SolidWorks

  • What is SolidWorks? (CAD, CAM, CAE overview)
  • SolidWorks Interface & Navigation
  • Templates and units (Metric vs Imperial)
  • File types and save options (.SLDPRT, .SLDASM, .SLDDRW)

Module 2: Basic Sketching

  • 2D Sketch creation (Lines, Circles, Arcs, Rectangles)s
  • Sketch constraints (Horizontal, Vertical, Tangent, etc.)
  • Dimensions and relations
  • Editing and trimming sketches
  • Sketch tools: Offset, Convert Entities, Mirror, Patterns

Module 3: Part Modeling – Features

  • Extrude, Revolve, Sweep, Loft
  • Cut-Extrude, Cut-Revolve, Cut-Sweep, Cut-Loft
  • Fillet, Chamfer, Shell, Draft
  • Rib, Mirror, Pattern (Linear, Circular, Sketch Driven)
  • Hole Wizard and Threading

Module 4: Assembly Design

  • Creating assemblies
  • Inserting and positioning components
  • Mates: Standard, Advanced, Mechanical
  • Subassemblies
  • Exploded views and motion studies (basic)
  • Interference and collision detection

Module 5: Drawing & Detailing

  • Creating 2D drawings from parts/assemblies
  • Drawing views: Standard, Section, Detail, Auxiliary, etc.
  • Dimensions and annotations
  • BOM (Bill of Materials) and Balloons
  • Title blocks and custom sheet formats
  • Revision tables and notes

Module 6: Configurations and Design Tables

  • Configurations for parts and assemblies
  • Creating variations using Design Tables (Excel integration)
  • Suppressing features and components
  • Using configurations in drawings and BOMs

Module 7: SolidWorks Simulation (Introductory)

  • Types of analysis (Static, Thermal, Drop Test)
  • Applying materials
  • Fixtures, loads, and mesh generation
  • Running simulations and interpreting results
  • Design optimization basics

Module 8: Advanced Modeling Tools

  • Multi-body parts
  • Surface modeling (Extruded Surface, Lofted Surface, etc.)
  • Weldments and structural members
  • Sheet metal design (Base Flange, Bend, Flatten)
  • Mold Tools (Parting Line, Core/Cavity)

Module 9: Import/Export and Interoperability

  • Importing STEP, IGES, DXF/DWG, STL files
  • Exporting for 3D printing or other software
  • Using eDrawings for sharing
  • SolidWorks PDM (Intro to data management)

Module 10: Real-World Project Work

  • Reverse engineering an existing product
  • End-to-end modeling → assembly → drawing documentation
  • Best practices in modeling and file management

Bonus / Advanced Topics (Optional)

  • Motion studies and animations
  • Top-down design techniques
  • API and Macros (intro)
  • Routing (pipes, electrical harness)
  • SolidWorks Visualize (Rendering & presentation)

Optional Tracks Based on Industry:

  • Mechanical Engineering Focus: Gears, mechanisms, stress analysis
  • Product Design Focus: Ergonomics, rendering, plastic design
  • Automotive/Aerospace: Advanced assemblies, CFD integration

Add-Ons for Learning Plans:

  • Assignments after each module
  • Weekly mini-projects (like a wrench, gearbox, bracket)
  • Final capstone project (e.g., mini machine assembly)
  • Mock test for SolidWorks CSWA or CSWP certification

Why Learn SolidWorks?

SolidWorks is a leading 3D CAD software used for mechanical design, product development, and simulation. Learning SolidWorks equips you with skills to create detailed 3D models, assemblies, and prototypes, making it essential for careers in mechanical engineering, product design, manufacturing, and industrial design.

Future Scope After Learning SolidWorks

The future scope of SolidWorks is very promising as 3D modeling and mechanical design are increasingly in demand across industries like automotive, aerospace, robotics, and consumer products. By mastering SolidWorks, you can pursue careers as a Mechanical Designer, Product Designer, CAD Engineer, Design Engineer, or Manufacturing Engineer. Its precision, simulation capabilities, and industry-standard status ensure strong global career growth for students and professionals.

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