Effects of Water in All-Wheel-Drive Clutch Oil on All-Wheel-Drive
Cornering Noise 2022-01-5103
The effect of water in all-wheel-drive (AWD) clutch oil and on chatter noise due
to negative μ-V gradient and inconsistent static friction coefficient was shown
in this present study. First, the relationship between the front and rear axle
speed delta and the steering angle of an on-demand AWD vehicle during turning
was analyzed. After the comparison of the noise of the warranty-returned AWD
clutch oil, the water content difference was observed and proven through
statistical hypothesis testing. According to tribological studies, a negative
μ-V gradient could cause stick-slip and lead to chatter noise. This hypothesis
has been verified via a bench test established according to SAE #2 standard. The
clutch pack consisted of multiple paper-based friction plates and carbon steel
reaction plates, and different water contents in the oil were tested on the test
bench. The result showed that differences in water content in the clutch oil
could affect the clutch static friction coefficient, and all tested clutch packs
presented a negative μ-V gradient at 0–5 rpm. The effect of extra water added to
an SUV AWD coupler oil also supported the observation that a certain amount of
water in AWD clutch oil could result in unfavorable noise when an AWD vehicle is
turning. This noise could be eliminated by changing oil with low water content
several times.