Date: 2 May 2000 00:26:15 -0000
"Boy! =
First there is no correlation between pedal travel and
pressure to the rotor. None what ever. Pedal travel in
its simplest form determines how FAST the caliper
can apply force to the rotor."
To sorry to have to disagree:
1) - The smaller diameter of the master cylinder the
more pedal travel and the less leg pressure required
to create the same amount of hydralic pressure.
2) - The larger the diameter of the wheel cylinder or
caliper the more pressure will be applied to the friction
material for the same amount of hydralic pressure.
In conclusion you can reduce the leg effort/increase
the braking by either reducing the size of the master
cylinder (theory only, I am not recommending this) or by
increasing the diameter at the wheel (within the limitations
of volume etc.)
Regards
Gary Zingle
1973 GMC 26 foot
FORCE to the rotor is a function of:
1. Contact area between the pad and the rotor =
2. Coefficent of friction between the two materials
3. PRESSURE in pounds per square inch delivered to the caliper piston
4. Area of the caliper piston
Secondly the vacuum booster reduced the amount of force necessary to appl=
y
pressure to the master cy linger. Nothing more or nothing less.
Arch thats my opinion for tonight.
"Boy! =
First there is no correlation between pedal travel and
pressure to the rotor. None what ever. Pedal travel in
its simplest form determines how FAST the caliper
can apply force to the rotor."
To sorry to have to disagree:
1) - The smaller diameter of the master cylinder the
more pedal travel and the less leg pressure required
to create the same amount of hydralic pressure.
2) - The larger the diameter of the wheel cylinder or
caliper the more pressure will be applied to the friction
material for the same amount of hydralic pressure.
In conclusion you can reduce the leg effort/increase
the braking by either reducing the size of the master
cylinder (theory only, I am not recommending this) or by
increasing the diameter at the wheel (within the limitations
of volume etc.)
Regards
Gary Zingle
1973 GMC 26 foot
FORCE to the rotor is a function of:
1. Contact area between the pad and the rotor =
2. Coefficent of friction between the two materials
3. PRESSURE in pounds per square inch delivered to the caliper piston
4. Area of the caliper piston
Secondly the vacuum booster reduced the amount of force necessary to appl=
y
pressure to the master cy linger. Nothing more or nothing less.
Arch thats my opinion for tonight.