People around the world always long for a faster yet safer mode of transportation. But it becomes challenging to balance the two as the speed increases, the aerodynamic forces that act on the body also increase. In real-world conditions, these forces can become unstable and lead to dangerous road accidents.
This is where vehicle dynamics comes in. Primarily, vehicle dynamics engineers play a vital role in ensuring the safety standards of the automobile.
So, if you are wondering how to become a vehicle dynamics engineer, then this article will surely help you in your decision to choose this promising career path.
Vehicle dynamics is a field of study, in the automobile industry, in which the vehicle dynamics engineer is tasked with studying how the vehicle performs and reacts dynamically through the input of the driver.
The forgiving aspect of vehicle dynamics is that it deals mostly with classical mechanics. Hence, the calculations are often easier compared to that of Computational Fluid Dynamics (CFD), and the computation time is also shorter.
In simpler terms, a vehicle dynamics engineer studies how a vehicle behaves when it is in motion.
The career path of a vehicle dynamics engineer could suit you well if you have a passion for the automotive industry, along with a knack for classical mechanics, Newtonian physics, and mathematics.
The roles and responsibilities of a vehicle dynamics engineer are incredibly vast, which makes them indispensable in the automotive sector. Here are some of them:
So, how do you prepare to get onto the path of a professional vehicle dynamics engineer? Well, the experts at Skill-Lync have mapped out the process for you. There are two stages for you to cross if you are an absolute beginner and want to get ahead of the competition as a vehicle dynamics engineer.
Are you among the select few who are inclined towards kinematics of machinery (KoM) and vibrations? If yes, multi-body dynamics could be the right fit for you.
There are two ways for you to structure your career in multi-body dynamics:
Multi-body dynamics essentially refers to the study of dynamics of a system in which multiple bodies are connected to each other and how they interact when a force is applied at one end.
This course looks into suspension design, tire modelling, vehicle ride, vehicle handling, and modelling all of them using MATLAB Simulink.
MATLAB involves a plethora of mathematical coding and requires you to understand all the equations involved in vehicle dynamics to develop your own solvers.
If you aren't very keen on core mathematics and complex programming, consider taking up suspension design using MSC Adams. MSC Adams is the most widely used software tool in the automotive industry for multi-body simulation and motion analysis.
A fascinating and largely theoretical course that is bound to pique your interest and understanding of vehicle dynamics engineering is 'Motorsport Racing and Vehicle Dynamics.'
If you are comfortable with all the stage 1 requirements, then you can unflinchingly get started with the second stage. However, a quick recap of all the previous learnings will help you a lot before you dive in.
If you are more inclined towards robotics, then you can take a look into multi-body dynamics using motion view and motion solve for both automotive as well as robotics applications.
You can even check out a model building in Adams View using MSC Adams. In this, you will be taught to build models that replicate real-life components from scratch.
Then, you have Adams Car, which is essentially a template-based approach. In this, you will have preloaded templates for most of the pre-existing models, and you can run your own simulations and view the results.
But if you want to work with Adams Car in a more advanced way, then the right area for you to look into is template building. Here, you build various templates for chassis, transmissions, suspensions, and more, which can later be used by yourself or other people who would like to deal with the fundamentals.
As a vehicle dynamics engineer, you must be confident enough to work the necessary tools as well as understand the theoretical concepts behind them. To this end, Skill-Lync has some useful courses that will help students get a better understanding of vehicle dynamics.
Check out some of the courses we offer:
Now that you know how to become a vehicle dynamics engineer, do you think you have what it takes? If you would like to study vehicle dynamics in more detail, sign up for one of Skill-Lync's industry-relevant courses on the subject.
A comprehensive program on Hybrid Electric Vehicle Design, Analysis and Simulation using a variety of computational tools for HEV Applications. This program is highly suited for beginners
A comprehensive program on application of computational tools for new product design, development and analysis using a variety of software tools. This program is highly suited for beginners
A comprehensive program on basics of CFD solver development and applications using Matlab/Octave, Python, CONVERGE-CFD and Ansys Fluent. This course is highly suited for beginners
Gain the skills you need to become an expert in the multidisciplinary EV design industry.
Learn about the design and analysis of high-rise buildings using industry level software tools such as Autocad, REVIT, ETABS, STAAD.Pro, Tekla Structural Designer, and Dlubal.
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Post Graduate Program in BIW Fixture and Plastic Design
A comprehensive program on Manufacturing concepts, Plastic & Sheet Metal Design, and GD&T using a variety of tools. This program is highly suited for beginners
This course deals with the suspension analysis of a half car model, also with the fundamentals of suspension modelling. You will learn advanced multibody dynamic concepts such as; wheel travel simulation, steering wheel simulation, and others.
A comprehensive course on fundamentals of Vehicle Dynamics using Matlab. This course is highly suited for beginners
In this project, you are being assigned a task to select a suitable rollbar for a light sports vehicle and come up with an understeer budget. The rollbar diameter selection and the understeer budget should comply with vehicle level targets like roll gradient and understeer gradient.
In this project you will be given with the real-time experimental PSD data of the road, you will write a Matlab/ Octave code to plot the PSD profile of the road. The obtained PSD plot of the given data will be superimposed on the ISO chart to find the road quality. By doing this, you will classify the road according to International Standard Organisation(ISO) .
This project involves i creating a model to represent an entire automobile and simulate them in a road profile with a few bumps to understand the on road characteristics of the vehicle
This project deals with the compliant analysis of a lower control arm of a suspension and studying the impact of considering a compliant analysis over a non-compliant analysis
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