Course level:Intermediate

Certification Course in 2W & 4W EV Design & Modeling with SOLIDWORKS

The “Certification Program in Electric Vehicle Modeling and Design with SOLIDWORKS” offers a comprehensive guide to designing a two-wheeler and four-wheeler using SolidWorks. You’ll start by mastering in 3D modeling and gradually move on to designing key components like the frame, suspension, swing arm, wheels, motor controller casing, and steering system. The course emphasizes integration and assembly, ensuring all parts fit and function cohesively. By the end, you’ll have a fully designed, production-ready two-wheeler, equipped with the skills to create complex models in SolidWorks.

 

At a glance

  • 11 Modules
  • 60 Lectures
  • 17.5 Hours of video content.
  • 1 Project Assignment
  • Certification of Completion.
$1,500.00
  • Level
    Intermediate
  • Duration
    17 hours 30 minutes
  • Enrollment validity
    Enrollment validity: Lifetime
  • Certificate
    Certificate of completion

Course Curriculum

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Module 1: Introduction and Basics
This module introduces the fundamentals of SolidWorks and the initial steps in designing a two-wheeler (2W). You will learn about the SolidWorks user interface, essential tools, and basic design principles. The module covers basic 3D modeling techniques, including sketching, creating basic shapes, and assembling simple parts to form the foundation of a 2W model.

Module 2: 2W – Chassis/Frame and Suspension Design
In this module, you will focus on designing the main structural components of the two-wheeler, specifically the frame and suspension system. You will learn how to create a robust and optimized frame, followed by detailed instructions on designing and assembling the suspension components to ensure proper vehicle dynamics and stability.

Module 3: 2W – Swing Arm Design
This module delves into the design of the swing arm, a critical component for the rear wheel suspension of the 2W. You will explore the intricacies of swing arm design, including structural considerations, material selection, and integration with the rest of the suspension system to ensure durability and performance.

Module 4: 2W – Wheel Design
Wheel design is the focus of this module, where you will learn to create alloy wheels for the two-wheeler. The lectures cover the basics of wheel geometry, material considerations, and advanced design features. You will also ensure that the wheels are both aesthetically pleasing and functional within the overall 2W model.

Module 5: 2W – Motor Controller Casing, Battery Pack and Steering Designing
This module covers the design of the motor controller casing and the steering mechanism. You will learn how to create a protective and efficient casing for the motor controller, considering aspects like cooling and ease of assembly. The steering design part focuses on ensuring control, maneuverability, and user comfort.

Module 6: 2W – Integration and Assembly
Integration and assembly of various components designed in previous modules are the primary focus here. You will learn to integrate wheels, steering components, battery casing, and the 2W seat into the overall design. This module emphasizes ensuring that all parts fit together correctly and function as intended, leading to a cohesive and functional 2W system.

Module 7: 2W – Final Assembly and Details
The final module covers the assembly of dynamic components and the finishing touches on the two-wheeler design. You will focus on assembling primary components, designing and integrating the front and back panels, headlight, and wheel support. The module concludes with a comprehensive review and final adjustments to ensure the model is production-ready, ensuring all components work together seamlessly and meet design specifications.

Module 8: 4W – Chassis and Structural Frame Design

Module 9: 4W – Wheel, Tyre & Brake System Design

Module 10: 4W – Steering & Suspension Design

Module 11: 4W – Powertrain and Driveline System

DIY Projects:

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Hardware & Software Required

Associated Skills

3D CAD Modeling Automotive CAD Electric Vehicle Design EV Engineering EV Modelling Four Wheeler Part Design Mechanical Design Certification SOLIDWORKS Training Suspension System Design Two Wheeler Design Vehicle Dynamics

DIY Projects Included

Course Benefits

Technical expertise you will gain

Who can take this course?

Personalized Trainer Support Portal:

At a glance

  • 11 Modules
  • 60 Lectures
  • 17.5 Hours of video content.
  • 1 Project Assignment
  • Certification of Completion.
$1,500.00
  • Level
    Intermediate
  • Duration
    17 hours 30 minutes
  • Enrollment validity
    Enrollment validity: Lifetime
  • Certificate
    Certificate of completion

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