SSANGYONG RODIUS 2004.09 Manual page 466

▶ Slip
The brake slip is the difference between the vehicle speed and the wheel circumference speed.
If the wheel locks, the slip is greatest, that is 100 %. If the wheel is running freely and unbraked,
the slip is the lowest, equal to 0 %. Slip can be calculated from the vehicle speed Vveh and the
wheel speed Vw. The equation for this is:
▶ Typical slip curves
For the various carriageway conditions the
adhesion coefficients were plotted. The
typical course of the curves is always the
same. The only special feature is shown by
the curve for freshly fallen snow, for this
curve increases at 100 % slip. In a vehicle
without ABS, the wheel locks on braking and
therefore pushes a wedge before it. This
wedge of loose surface or freshly fallen
snow means and increased resistance and
as a result the stopping distance is shorter.
This reduction in stopping distance is not
possible with a vehicle with ABS, as the
wheel does not lock. On these surfaces the
stopping distance with ABS is longer than
without ABS. The reason for this is based in
physics and not in the Anti-Lock System.
However, as mentioned before, ABS is not
about the stopping
maneuverability and driving stability, for with
ABS you can steer round an obstacle. A
device with locking wheels without ABS
cannot be steered. So what use then is the
shorter stopping distance if the vehicle has
already hit the car in front, because you did
not have a chance to steer round the
obstacle?
10-5
4892-01
distance, but
ABS
RODIUS 2004.09