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Solid Works

Solid Works

SolidWorks is a leading computer-aided design (CAD) software used for creating 3D models, simulations, and technical drawings. It is widely utilized across industries such as engineering, manufacturing, and product design due to its robust features and user-friendly interface. SolidWorks enables professionals to design complex mechanical parts, assemblies, and systems while facilitating product visualization and prototyping.

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Reviews 4.7 (253 user ratings):
4.721 students
Price:
₹ 5000/-

With advancements in design technology, SolidWorks has integrated tools for simulation, electrical design, and 3D printing. Professionals working with SolidWorks must understand parametric modeling, design validation, and data management. While it offers powerful design capabilities, challenges include optimizing large assemblies, maintaining design accuracy, and keeping up with evolving software features and industry standards.

Course Descriptions :

“Introduction to SolidWorks” provides a foundational overview of the SolidWorks software and its core functionalities. Participants learn the basics of 3D modeling, user interface navigation, and creating simple parts and assemblies.

“Sketching and Part Modeling” focuses on creating 2D sketches and transforming them into 3D parts. Topics include geometric constraints, dimensioning, extrusions, and revolutions to build parametric models.

“Assembly Modeling” teaches the process of combining multiple parts into complex assemblies. Participants explore mate relationships, assembly visualization, interference detection, and managing design configurations.

“Drawing and Detailing” covers the creation of detailed 2D technical drawings from 3D models. Topics include dimensioning standards, annotations, section views, and generating bills of materials (BOM).

“Advanced Part Design” dives into complex modeling techniques and design automation. Participants learn about lofting, sweeping, surface modeling, and using design tables for parametric control.

“Sheet Metal Design” focuses on designing sheet metal components and preparing them for manufacturing. Topics include base flange, bend features, flat patterns, and sheet metal forming tools.

“Weldments and Structural Design” explores creating structural frameworks using the SolidWorks weldment tools. Participants learn to generate weldment profiles, apply corner treatments, and produce cut lists.

“Surface Modeling Techniques” teaches advanced surface creation and manipulation. Topics include lofted surfaces, boundary surfaces, repair techniques, and transitioning between surface and solid models.

“Simulation and Stress Analysis” introduces SolidWorks Simulation for testing mechanical designs. Participants study static stress analysis, material properties, mesh creation, and interpreting simulation results.

“Motion Analysis and Kinematics” focuses on analyzing the motion of mechanical assemblies. Topics include defining motion constraints, simulating movement, and calculating forces and velocities.

“Design Automation with SolidWorks API” covers automating repetitive design tasks using the SolidWorks Application Programming Interface (API). Participants learn to script common operations and customize workflows.

“Product Data Management (PDM)” explores managing design data and collaboration using SolidWorks PDM tools. Topics include version control, design history, and secure data sharing.

“Rendering and Visualization” emphasizes creating realistic visual representations of 3D models. Participants learn about applying materials, lighting techniques, and producing high-quality renderings using SolidWorks Visualize.

“3D Printing and Manufacturing Preparation” covers preparing models for 3D printing and other manufacturing processes. Topics include converting CAD files, optimizing designs for printing, and exporting STL files.

“Advanced Assembly Techniques” focuses on large-assembly management and performance optimization. Participants learn strategies for managing external references, lightweight assemblies, and assembly simplification.

“Hands-On Projects” is a practical course where participants apply SolidWorks knowledge to real-world design challenges. Projects include creating detailed models, conducting simulations, and preparing designs for manufacturing. This course emphasizes creativity, accuracy, and technical proficiency.

This course includes:

  • 30 hours on-demand video
  • 6 months access
  • Access on mobile and TV
  • Free Webinar
  • Certificate of completion
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