Vehicle Design and Dynamics

Description

As a basic theory of the vehicle industry, vehicle dynamics play an important role in the development of the vehicle industry. In the past decades, great progress was made in the theory and experiment of vehicle dynamics. Vehicle Dynamics gives us an idea of how a vehicle will respond to various situations. This study has its roots in the work of creative engineers who established the methodology of various dynamic systems. As automobiles evolved the understanding of vehicle dynamics became important. Subsequently, it has moved towards modelling, analysis, and optimization of multi-body dynamics with accurate positioning, sensing, and calculations with intelligent computer software.

A clear understanding of Vehicle Dynamics is needed for predicting the behaviour of any vehicle under different conditions. Responses of components and intuitive feedback to driver govern safety and handling in general. Also, the dynamics of a vehicle can be the deciding factor in any competitive event. In-vehicle dynamics, the vehicle body (sprung mass), the suspension component (spring and damper) and tire (unsprung mass) are essential parts of the system. 

Program Overview:

Vehicle dynamics is the study of behaviour of vehicles in motion. The study is one of the most important activities in the Vehicle design and development cycle to design vehicles which drive well and are comfortable to ride in.

What You Will Learn:

 Concepts and mechanisms which govern the actions and reactions in vehicles all the way from how vehicles accelerate, brake, turn and respond to vibrations.

 The Theory and concepts behind suspension design process including concepts of kinematics and vibration isolation.

 In this course you will be learning about the systems and Sub system along with Modelling of Parts, Chassis Design and Analysis.

 You will be also learning various forces acting on Chassis, Wheel Dynamics, Braking System, and Steering System along with Calculation.

This program provides you with the most flexible learning environment possible. This program is offered as a self-paced program often referred to as an asynchronous online program which is time-independent, meaning that it can be accessed 24X7 life time access.

This program can be accessed from multiple devices which make it easy to learn on the go. Lectures that are pre-recorded or slide presentation with voice-over commentary, interactive discussion boxes, real time modelling on different advanced software, GIF, Videos , graphs etc.


Program outcomes
  • Apply knowledge of mathematics, science, and engineering.

  • Design and Dynamics Concept along with Calculation.

  • Mathematical Modelling / CAD Modelling

  • Body of Frame – Chassis Design and Analysis

  • Vehicle Verification and Validation

  • What are the Codes and Standards need to be followed to design a vehicle as per Motor Vehicle Act / ARAI/ICAT

  • Design and conduct experiments, as well as to analyze and interpret data.

  • Identify, formulates, and solves engineering problems.

  • Recognition of the need for, and an ability to engage in life-long learning.

  • Utilize experimental, statistical and computational methods and tools necessary for engineering practice.

  • To develop extensive knowledge and understanding of a wide range of computer modelling and simulation software.

  • Conduct rigorous and ethical research / formal inquiry into related issues that require familiarity with a range of research sources and appropriate methodologies.

  • Build a strong understanding of the fundamental concepts which are at work in a vehicle which is in motion.

  • Learn how to design a Basic suspension from scratch.

  • Learn the basics of Vibration isolation and what is damping in suspensions?


Requirements
  • Mobile/Laptop/Tablet with good internet connectivity.
  • Interest in electric vehicle and future mobility.

Syllabus

  • 56 Lessons
  • 14:58:00 Hours
  • Introduction to Chassis00:13:00
  • Factor affecting chassis and machining00:16:00
  • Calculation on chassis CG & reactive forces00:08:00
  • Structural Analysis of Frame00:14:00
  • Automotive Materials00:18:00
  • Ergonomics00:16:00
  • Vehicle Aerodynamics00:10:00
  • Prototyping00:13:00
  • Steering components & their functions00:11:00
  • Steering geometries00:15:00
  • Steering Parameters00:13:00
  • Power Steering 00:20:00
  • Steering Mechanism Calculation00:12:00
  • Steering Errors00:11:00
  • Case Study -Continuous Track Steering System00:10:00
  • Suspension & terminologies00:25:00
  • Factors affecting Vehicle Stability00:10:00
  • Dependent Suspension ( With Calculations )00:40:00
  • Quarter Car Model00:11:00
  • Case Study (Simulate electric car Suspension geometry on Lotus/Adams) - Coming soon00:40:00
  • Introduction to Braking Mechanism & components00:16:00
  • Anti-lock Braking system - ABS00:14:00
  • Materials & Factor affecting brakes00:18:00
  • Analysis of brake disc (Thermal and static)00:20:00
  • Brake Calculations00:15:00
  • Wheel & load distribution with wheel dynamics00:16:00
  • SAE Tyre axis system00:12:00
  • History & Manufacturing of tire materials00:15:00
  • Tire Formula00:08:00
  • Tire Designation00:08:00
  • Rim material and manufacturing00:09:00
  • Tire Modelling Using SolidWorks00:15:00
  • Inception of CAE00:12:00
  • Types of CAE- I00:19:00
  • Types of CAE- II00:27:00
  • Verification and Validation Process00:10:00
  • Mechanical Drawing Terminologies00:35:00
  • Benefits and Limitations of CAD00:15:00
  • Design Considerations for CAD00:10:00
  • Manufacturing Considerations00:10:00
  • Positive Mould and Negative Mould 00:15:00
  • Market Survey and Trends00:11:00
  • Prerequisite for chassis design- SolidWorks User Interface 00:15:00
  • Chassis Design and Dynamics00:21:00
  • Chassis Design - On Solidworks 00:28:00
  • Simulation on Chassis00:32:00
  • FE Analysis of Automotive Chassis -I 00:45:00
  • FE Analysis of Automotive Chassis -II (Structural Analysis) 00:11:00
  • FE Analysis of Automotive Chassis -III (Explicit Dynamic Analysis) 00:20:00
  • Challenges in EV00:15:00
  • Goals set for Electrification00:15:00
  • Standards and Regulation in India00:15:00
  • Requirements for Policy Making00:15:00
  • Validation of EV in India00:10:00
  • Assessment 1
  • Mini Project 1: Calculate the Turning Radius of any Electrical Vehicle launched in 2020.

About instructor

Instructor
Name : ISIEINDIA E-LEARNING
Reviews : 183 Reviews
Student : 2495 Students
Courses : 64 Courses

Reviews

5
Based on 1 Reviews
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saloni Gupta - Wed, 24-Jun-2020

When I started this course , at the same time , i did not find much interesting , but when i finished this program . I'm having a completely different feeling . I would like to recommend it to others.

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