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When you decrease the pedal ratio, you increase the stroke in the M/C. Power brakes systems use less pedal ratio, therefor more stroke at the MC for a given pedal travel.

Same bore M/C going from manual to power sends out more volume for a given pedal travel.

That's what is different.

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But wouldn't that be true only if the brake pedal was also swapped to the corresponding 'correct' ratio?

ie, just throwing a booster behind a MC won't necessarily change the stroke, or will it? It should build more pressure, which I guess would necessitate a little longer stroke, assuming you haven't bottomed out the MC.

Another question: Do manual master cylinders have more travel built in to them than power MCs do? (assuming the same diameter bore)?

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When you decrease the pedal ratio, you increase the stroke in the M/C. Power brakes systems use less pedal ratio, therefor more stroke at the MC for a given pedal travel.

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Please explain to me how the mechanical ratio of the pedal is modified when you install a booster with no other changes.
A brake booster is a straight through design. It simply uses vacuum to help push the pedal and reduce your leg effort.



Where are the levers and other gizmos to change the mechanical advantage?

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Another question: Do manual master cylinders have more travel built in to them than power MCs do? (assuming the same diameter bore)?

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When you decrease the pedal ratio, you increase the stroke in the M/C. Power brakes systems use less pedal ratio, therefor more stroke at the MC for a given pedal travel.
Same bore M/C going from manual to power sends out more volume for a given pedal travel.
That's what is different.

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EFFECTIVE RADIUS OF A ROTOR

To work with the actual braking ability you really need to find what is called the effective radius of your brake rotor. To do that you need to know the caliper piston diameter (only the biggest one for calipers with more than one piston) and the diameter of your rotor.
Effective radius is the total diameter of the brake rotor plus that same diameter AFTER you subtract the diameter of the piston. Then, divide by 4.
Use a "big" Mopar 11.75" rotor and the 2.75" caliper we used above.
11.75" minus the 2.75" piston is 9 inches.
So, 11.75" plus 9" is 20.75".
Divide by 4 and you get a 5.18" effective radius.

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Effective radius of the rotor is unrelated to the piston diameter. It is the center of contact for for the brake pad to the rotor. Typical undergrad engineering calculation put it outboard of the center, but the taper wear of pads typically moves back inboard. So the center of contact is good compromise.

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You can tell the A body guys.

The A body power setup uses an offset crank assembly to lessen the pedal ratio

You can see it in this link

http://www.ebay.com/itm/1967-MOPAR-MOPAR...R-/290681535604

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My duster has a 6.5:1 manual pedal ratio. When adding the power linkage, it drops to 3.5:1.

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The 73+ had 15/16 master cylinders with power brakes.

I have an excel calculating booster help if anyone wants to see it.

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Is it any different than the one at Pirate4x4 that just adds a multiplier to the pressure output?

Heck, send it to my username at hotmail.com.

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Here's a file that compares manual to power brakes.

www.ma-uav.com/Manual_v_Vacuum_Brake_Pressures.xls

It looks like it takes the surface area of the booster and current vacuum to calculate the additional pressure provided.

Then it has two lines for each manual and power so you can compare different sized MCs. I think the table on the right is different foot pressures. For power it then adds the pressure provided by the booster (I think it's looking at the 9").

Although I think it needs to take into account pedal ratio somewhere in there

As always, use this at your own risk

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Here's a file that compares manual to power brakes.

www.ma-uav.com/Manual_v_Vacuum_Brake_Pressures.xls

It looks like it takes the surface area of the booster and current vacuum to calculate the additional pressure provided.

Then it has two lines for each manual and power so you can compare different sized MCs. I think the table on the right is different foot pressures. For power it then adds the pressure provided by the booster (I think it's looking at the 9").

Although I think it needs to take into account pedal ratio somewhere in there

As always, use this at your own risk

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This is my file, so I'll answer some questions on it. I'll clean it up and host a better version on my website later.

The pedal ratio is accounted for- but isn't in an obvious place for you to toggle. That is calculating off a fixed 9" single booster. The numbers at the top of the table are foot force in pounds.

I didn't realize hooziewhatsit was going to host this for download when I emailed it to him. I'll make it more user friendly tonight and make that version available for download.

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Ok so after reading through this whole thread I am still a little confused as to what the actual equations are used for. I know how to get the answers but why? Am I using those to get the figures for the stock setup compared to proposed setup? I am just unsure. In particular the purpose of the area of a circle and effective radius of a rotor? I did the math for both stock and proposed. What does it mean if the stock are of a circle is 6.78inches and the propsed is 7.06inches? Same with the Effective radius? Stock is 5.07 and proposed is 6.23. I just don't know. Also are there any braking books out there that are a must read? I am in Kuwait right now and will be returning back to the states within the next 2 weeks so if there are any recommended readings out there please share.

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I didn't realize hooziewhatsit was going to host this for download when I emailed it to him. I'll make it more user friendly tonight and make that version available for download.

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oops. Sorry

The cleaned up file is pretty interesting through... it says I should have roughly 900psi. I just got my brake pressure gauge, so at some point when I get some time I'll have to verify that.

Thanks for the file