How Can the Braking System in a Car Be Modeled?

AI Thread Summary
Modeling a car's braking system involves understanding the application of force on the brake pedal and how that force translates to the tires through various mechanical components. Modern braking systems are complex, incorporating hydraulics, friction materials, and technologies like ABS and traction control. The basic principle is that force applied to a lever creates friction that slows the vehicle, but effective modeling requires knowledge of hydraulics, dynamics, heat transfer, and material properties. Simple equations alone are insufficient for accurate modeling; a comprehensive understanding of these systems is essential. Seeking resources or expert guidance in these areas is advisable for those unfamiliar with the underlying principles.
Gutsy
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Hi,
I would like to know "how the braking system in a car can be modeled" i.e.,upon applying the force on pedal,how the force gets applied on the tires of the car.Please also give the equations which need to be considered for developing the model.

Thank you.
 
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Welcome to PF, Gutsy. I know nothing from formulae (although I could probably work out something like this if necessary). One thing to remember is that modern braking systems involve far more than the basics. Even my '72 Roadrunner has dual proportional braking with front discs; never mind when you get into ABS and traction control systems.
In the simplest system, application of force to a lever of some kind causes a frictional surface to be brought into contact with a rotating part that you want to stop.
On stage coaches, carriages, etc., that meant a leather-lined wooden block pressed against the rim of the wheel by means of a hand lever. Later designs had a smaller inner wheel on the same axle, to which the force was applied. This eventually evolved into the brake drum and shoes, which then introduced hydraulics. From there, aircraft technology brought about disc/caliper systems, which necessitated power boosting.
 
For starters, why not try a simple search in Google?

http://auto.howstuffworks.com/disc-brake.htm

http://auto.howstuffworks.com/drum-brake.htm

Basically, you have a force applied to something (might involve hydraulics) that creates friction, which in turn creates heat, and the resulting frictional load slows the thing down. Unfortunately, modeling a braking system is not as simple as plugging numbers into a few magic equations, it takes understadning of hydraulics, dynamics, heat transfer, and material properties.
 
@mech_engineer,all

Thanks for ur inputs,
i had gone thru them previously but unable to go past them as i don't have any knowledge on the areas u specified.

Can anybody help me out.Also, i am not looking at vibrational analysis of the system(car).

Thank you
 

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